TPO63 Task3
Task3
Explain how the example from the professor’s lecture illustrates the concept of near-field sound detection.
Reading
Near-Field Sound Detection
Some animals are able to use sound to avoid predators. When sound is produced, it creates vibrations in the surrounding air. These vibrations are known as near-field sounds because they originate, or begin, near the sound source. Most animals are unable to detect these kinds of sounds; however, some animals have an ability known as near-field sound detection. This ability allows certain animals to detect vibrations or near-field sounds produced by potential predators. Animals with near-field sound detection abilities have special physical features that allow them to sense an approaching predator and take action to protect themselves.
1. Near-Field Sound Detection
- 直译:近场声音探测
- 句子结构分析:该句是一个名词短语,结构为“形容词 + 名词 + 名词”。“Near-Field”是形容词短语,修饰“Sound Detection”,表明声音检测的特定范围,即“近场”。
- 词汇和短语解释:
- Near-Field:意思是“近场的,靠近声音源的区域”。
- Sound Detection:表示“声音探测”,即通过某种方式识别或感知声音。
2. Some animals are able to use sound to avoid predators.
- 直译:一些动物能够利用声音来躲避捕食者。
- 句子结构分析:简单句,主语是“Some animals”,谓语是“are able to use”,宾语是“sound”,补语是“不定式短语 to avoid predators”。
- “are able to”是表示能力的短语结构,表明主语“Some animals”具备某种能力。
- “to avoid predators”是不定式短语,作目的状语,解释这些动物使用声音的目的。
- 词汇和短语解释:
- use sound:意为“利用声音”,这里“sound”是名词,指的是声音的概念。
- avoid predators:指“躲避捕食者”,其中“predators”是“捕食者、天敌”的意思。
3. When sound is produced, it creates vibrations in the surrounding air.
- 直译:当声音产生时,它在周围空气中产生振动。
- 句子结构分析:复合句,主句为“it creates vibrations in the surrounding air”,从句为“when sound is produced”。
- 从句“when sound is produced”是时间状语从句,“when”引导,从句表明事件发生的时间。
- 主句“it creates vibrations in the surrounding air”:主语为“it”(代指“sound”),谓语“creates”表示“产生”,宾语“vibrations”表示“振动”。
- 词汇和短语解释:
- vibrations:振动,指声音引起的空气中的物理变化。
- surrounding air:意为“周围空气”,表明振动的作用范围。
4. These vibrations are known as near-field sounds because they originate, or begin, near the sound source.
- 直译:这些振动被称为近场声音,因为它们起源或开始于声音源附近。
- 句子结构分析:复合句,主句是“These vibrations are known as near-field sounds”,从句是“because they originate, or begin, near the sound source”。
- 主句“These vibrations are known as near-field sounds”结构为“主语 + 系动词(be) + 表语”,其中“known as”表示“被称为”。
- 从句“because they originate, or begin, near the sound source”是原因状语从句,由“because”引导,表明振动为何被称为“near-field sounds”。“originate”是“起源”的意思,“begin”在这里是同义补充说明。
- 词汇和短语解释:
- known as:被称为,指的是一个命名或定义的过程。
- originate:起源,表明事物的发生或出现的位置。
- sound source:声音源,指声音发出的起点或源头。
5. Most animals are unable to detect these kinds of sounds; however, some animals have an ability known as near-field sound detection.
- 直译:大多数动物无法探测到这些声音;然而,一些动物具有一种被称为近场声音探测的能力。
- 句子结构分析:复合句,由分号隔开,前一句为“大多数动物无法探测这些声音”,后一句为“一些动物具有一种能力”。
- 前句“Most animals are unable to detect these kinds of sounds”结构为“主语 + 系动词(be) + 补语”,其中“unable to detect”表明能力的缺乏。
- 后句“some animals have an ability known as near-field sound detection”结构为“主语 + 动词 + 宾语 + 宾补”,宾补为“known as near-field sound detection”,修饰“an ability”。
- 词汇和短语解释:
- unable to detect:无法探测,说明大多数动物缺乏这种能力。
- known as:被称为,这里用于命名一种能力。
- near-field sound detection:近场声音探测,是特指某些动物用来探测声音的方法。
6. This ability allows certain animals to detect vibrations or near-field sounds produced by potential predators.
- 直译:这种能力使某些动物能够探测到潜在捕食者产生的振动或近场声音。
- 句子结构分析:简单句,主语为“This ability”,谓语为“allows”,宾语为“certain animals”,宾语补语为“to detect vibrations or near-field sounds produced by potential predators”。
- 宾补部分“to detect vibrations or near-field sounds”解释了能力的功能。
- 定语从句“produced by potential predators”修饰“vibrations or near-field sounds”,说明声音或振动的来源。
- 词汇和短语解释:
- allows:使能够,表示提供某种可能性或权限。
- produced by potential predators:由潜在捕食者产生,指声音或振动的具体来源。
7. Animals with near-field sound detection abilities have special physical features that allow them to sense an approaching predator and take action to protect themselves.
- 直译:具有近场声音探测能力的动物拥有特殊的身体特征,使它们能够感知接近的捕食者并采取措施保护自己。
- 句子结构分析:复合句,主句为“Animals with near-field sound detection abilities have special physical features”,从句为“that allow them to sense an approaching predator and take action to protect themselves”。
- 主句“Animals with near-field sound detection abilities have special physical features”主语为“Animals with near-field sound detection abilities”,谓语“have”,宾语“special physical features”。
- 从句“that allow them to sense an approaching predator and take action to protect themselves”是定语从句,修饰“special physical features”,其中“that”引导从句,指代前面的“features”。
- 词汇和短语解释:
- special physical features:特殊的身体特征,指某些特定动物体内具有的物理结构。
- sense:感知,意思是通过身体特征察觉到外部刺激。
- approaching predator:接近的捕食者
Listening
Now , listen to part of a lecture in a biology class . Okay , so let’s look at an example of this with insects . Take caterpillars , for example . Some caterpillars have this ability . Now , say there’s a caterpillar crawling along on a branch in a tree , just mining its own business . And then some dangerous insect , like a wasp , flies toward the tree . The caterpillar could be in trouble . The wasp might try to eat the caterpillar . It is a threat . Now , a lot of other animals may not hear the wasp or know that it’s close by . But fortunately , for the caterpillar , there are these really tiny hairs on the caterpillar skin , little hairs that stick out into the air around the caterpillar . And when the wasp flies toward the tree , the beating of its wings makes a sound which sends out vibrations or small movements in the air , which make the caterpillars tiny hairs move . So it senses the presence of the wasp . So once the caterpillar realizes something is flying toward it , and it might be a wasp , the caterpillar will just drop off the branch it’s been crawling on and fall to a lower branch or to the ground . And this way , the wasp is likely to just fly right by without ever catching the caterpillar . And the caterpillar will be safe .
1. Now, listen to part of a lecture in a biology class.
- 直译:现在,听一段生物课的讲座。
- 句子结构分析:简单句,主语为“you”(省略),谓语“listen to”,宾语为“part of a lecture in a biology class”。
- “Now”是时间状语,用来引导和强调当前的指令。
- “part of a lecture”是名词短语,“in a biology class”是介词短语,修饰“lecture”。
- 词汇和短语解释:
- lecture:讲座,通常用于课堂教学。
- biology class:生物课,指生物学相关的课程。
2. Okay, so let’s look at an example of this with insects.
- 直译:好的,我们来看看一个关于昆虫的例子。
- 句子结构分析:简单句,主语是“we”(在“let’s”中隐含),谓语“look at”,宾语“an example of this with insects”。
- “let’s”是“let us”的缩写,表示建议。
- 词汇和短语解释:
- look at:表示“看”,这里是“来观察”的意思。
- an example of this with insects:用昆虫做的一个例子,“of this”指代讲座内容中的一个特定概念。
3. Take caterpillars, for example.
- 直译:例如,拿毛毛虫来说。
- 句子结构分析:简单句,省略了主语“you”,结构为“take + 宾语”。
- 词汇和短语解释:
- take…for example:用于举例,表示“拿…作为例子”。
4. Some caterpillars have this ability.
- 直译:一些毛毛虫具有这种能力。
- 句子结构分析:简单句,主语是“Some caterpillars”,谓语“have”,宾语“this ability”。
- 词汇和短语解释:
- this ability:指代之前提到的感知危险的能力。
5. Now, say there’s a caterpillar crawling along on a branch in a tree, just minding its own business.
- 直译:那么,现在来看一下,假设有一只毛毛虫在树上的树枝上爬行,做着自己的事。
- 句子结构分析:复合句,主句为“say there’s a caterpillar”,后面“crawling along on a branch in a tree, just minding its own business”是现在分词短语,补充说明毛毛虫的状态。
- “say”表示假设情境,省略了“let us”。
- 词汇和短语解释:
- crawling along:沿着…爬行。
- minding its own business:做着自己的事,表示专注于自己的事情。
6. And then some dangerous insect, like a wasp, flies toward the tree.
- 直译:然后,一只危险的昆虫,比如一只黄蜂,朝树飞去。
- 句子结构分析:简单句,主语“some dangerous insect, like a wasp”,谓语“flies toward”,宾语是“the tree”。
- “like a wasp”是解释性插入,补充说明危险昆虫的例子。
- 词汇和短语解释:
- dangerous insect:危险的昆虫,指可能对毛毛虫构成威胁的昆虫。
- flies toward:飞向,表示朝某个方向移动。
7. The caterpillar could be in trouble.
- 直译:毛毛虫可能会有麻烦。
- 句子结构分析:简单句,主语为“The caterpillar”,谓语为“could be”,补语“in trouble”。
- 词汇和短语解释:
- in trouble:处于麻烦之中,表示遇到危险。
8. The wasp might try to eat the caterpillar.
- 直译:黄蜂可能会试图吃掉毛毛虫。
- 句子结构分析:简单句,主语“The wasp”,谓语“might try to eat”,宾语“the caterpillar”。
- 词汇和短语解释:
- might try to:可能尝试做某事,表示一种潜在的动作。
9. It is a threat.
- 直译:它是一个威胁。
- 句子结构分析:简单句,主语为“It”,系动词“is”,表语“a threat”。
- 词汇和短语解释:
- threat:威胁,表示可能造成伤害的来源。
10. Now, a lot of other animals may not hear the wasp or know that it’s close by.
- 直译:许多其他动物可能听不到黄蜂的声音,也不知道它在附近。
- 句子结构分析:复合句,主句为“a lot of other animals may not hear the wasp or know that it’s close by”,并列谓语“may not hear…or know…”表示两种可能的情况。
- 词汇和短语解释:
- close by:在附近,表示距离近。
11. But fortunately, for the caterpillar, there are these really tiny hairs on the caterpillar’s skin, little hairs that stick out into the air around the caterpillar.
- 直译:但幸运的是,对于毛毛虫来说,毛毛虫皮肤上有这些非常细小的毛发,伸出到毛毛虫周围的空气中。
- 句子结构分析:复合句,主句为“there are these really tiny hairs on the caterpillar’s skin”,后接一个同位语从句“little hairs that stick out into the air around the caterpillar”来进一步描述“hairs”。
- 词汇和短语解释:
- tiny hairs:细小的毛发,用于感知。
- stick out:伸出,突出。
12. And when the wasp flies toward the tree, the beating of its wings makes a sound which sends out vibrations or small movements in the air, which make the caterpillar’s tiny hairs move.
- 直译:当黄蜂飞向树时,它翅膀的拍打产生一种声音,这种声音在空气中发出振动或小的移动,使毛毛虫的细小毛发产生移动。
- 句子结构分析:复合句,主句“the beating of its wings makes a sound”,后接两个由“which”引导的定语从句,逐步解释振动对毛毛虫的影响。
- 词汇和短语解释:
- beating:拍打,指黄蜂翅膀的动作。
- vibrations or small movements:振动或小的移动,是声音在空气中的表现。
13. So it senses the presence of the wasp.
- 直译:因此,它感知到了黄蜂的存在。
- 句子结构分析:简单句,主语“it”,谓语“senses”,宾语“the presence of the wasp”。
- 词汇和短语解释:
- senses:感知,表示通过触觉或其他感觉察觉到。
- presence:存在,表示黄蜂就在附近。
14. So once the caterpillar realizes something is flying toward it, and it might be a wasp, the caterpillar will just drop off the branch it’s been crawling on and fall to a lower branch or to the ground.
- 直译:所以,一旦毛毛虫意识到有东西朝它飞来,可能是黄蜂,毛毛虫就会从它爬行的树枝上掉下来,落到更低的树枝或地面上。
- 句子结构分析:复杂句,包含主句和多个从句:
- 主句“the caterpillar will just drop off…”;
- 时间从句“once the caterpillar realizes something is flying…”;
- 宾语从句“something is flying toward it”和“it might be a wasp”说明毛毛虫的意识。
- 词汇和短语解释:
- realizes:意识到,表示认知。
- drop off:掉落。
**15. And this way
, the wasp is likely to just fly right by without ever catching the caterpillar.**
- 直译:这样的话,黄蜂可能会直接飞过去,根本抓不到毛毛虫。
- 句子结构分析:复合句,主句“the wasp is likely to fly right by…”,状语“in this way”表明方法或途径。
- 词汇和短语解释:
- fly right by:直接飞过。
- without ever catching:表示不会抓住。
16. And the caterpillar will be safe.
- 直译:毛毛虫就会安全了。
- 句子结构分析:简单句,主语“the caterpillar”,谓语“will be”,补语“safe”。
- 词汇和短语解释:
- safe:安全的,表示处于保护状态。
New Word | Pronunciation | Part of Speech | English Explanation | Chinese Explanation | Example Sentence |
---|---|---|---|---|---|
Approach | ► | Verb | To come near or nearer to something in distance or time. | 接近。 | "The deer quickly ran away as the wolf approached." |
Avoid | ► | Verb | To keep away from or prevent something from happening. | 避免。 | "She always tries to avoid walking alone at night." |
Branch | ► | Noun | A part of a tree that grows out from the trunk or from a main limb. | 树枝。 | "The bird built its nest on a high branch of the oak tree." |
Caterpillar | ► | Noun | The larval stage of a butterfly or moth, typically having a long, slender body and many legs. | 毛虫。 | "The caterpillar will eventually turn into a beautiful butterfly." |
Concept | ► | Noun | An abstract idea or a general notion that represents something. | 概念。 | "The concept of time is something we often take for granted." |
Crawl | ► | Verb | To move on hands and knees or by dragging the body close to the ground. | 爬行。 | "The baby started to crawl before she could walk." |
Detect | ► | Verb | To discover or identify the presence of something. | 侦测。 | "The smoke alarm can detect fires before they spread." |
Detection | ► | Noun | The action or process of identifying the presence of something. | 侦测。 | "Early detection of diseases can lead to better treatment outcomes." |
Feature | ► | Noun | A distinctive attribute or aspect of something. | 特征。 | "The most interesting feature of the smartphone is its high-resolution camera." |
Illustrate | ► | Verb | To explain or make something clear by using examples, pictures, or diagrams. | 说明。 | "The teacher used a diagram to illustrate how the water cycle works." |
Lecture | ► | Noun | A formal talk given to an audience, especially in an educational setting, to teach them about a particular subject. | 讲座。 | "The professor gave a really interesting lecture on evolution today." |
Originate | ► | Verb | To begin or start from a particular point or source. | 起源。 | "Many of our modern words originate from Latin." |
Physical | ► | Adjective | Relating to the body or the material world; having tangible attributes. | 物理的,身体的。 | "The athlete's physical strength was impressive during the competition." |
Predator | ► | Noun | An animal that preys on others; a creature that hunts and kills for food. | 捕食者。 | "The lion is a well-known predator in the African savanna." |
Presence | ► | Noun | The state of being present; existence in a particular place. | 存在。 | "Her presence in the room made everyone feel more at ease." |
Sense | ► | Verb | To perceive or become aware of something through physical perception or intuition. | 感知。 | "I can sense that something is wrong with him today." |
Skin | ► | Noun | The outer protective layer of the body, covering the flesh and organs. | 皮肤。 | "She applied sunscreen to protect her skin from the sun." |
Source | ► | Noun | The point of origin or the place where something comes from. | 来源。 | "The river is the main source of water for the town." |
Surround | ► | Verb | To be all around something; to encircle or envelop. | 包围。 | "The mountains surround the valley, creating a beautiful landscape." |
Threat | ► | Noun | A person or thing likely to cause harm or danger. | 威胁。 | "Climate change poses a serious threat to our environment." |
Tiny | ► | Adjective | Very small in size or amount. | 非常小的。 | "I found a tiny ant crawling on the kitchen counter." |
Vibration | ► | Noun | A rapid motion back and forth or up and down, often producing sound. | 震动。 | "I could feel the vibration of the music through the floor." |
Wasp | ► | Noun | A type of stinging insect that is usually yellow and black, known for its aggressive behavior. | 黄蜂。 | "I got stung by a wasp while I was gardening yesterday." |
Wing | ► | Noun | A limb of an animal (especially a bird or insect) that is used for flying. | 翅膀。 | "The bird spread its wings and took off into the sky." |
class2027第一次月考修改文稿点这里
Amanda
In this biological lectures, biology lecture, the teacher professor talked about the protection of some animals. It is about that how some animals will protect the predator. And why themselves from predators. For example, he mentioned caterpillars. These caterpillars can sense sounds made by predators, like wasps, because they protect themselves? It is about the ears. Because have tiny hairs on their bodies. When a wasp flies nearby, the sound of its wings creates vibrations in the predator, air that make these hairs move. This helps the caterpillar detect that a wasp might be close. Once it can through senses the ear and enter danger, the animal's ear. So caterpillar drops off the branch to escape, so the wasp might not catch it. This illustrates how near-field sound detection helps animals can hear the sound and take the action to protect. They can run into the grass and protect themselves well.stay safe.
Clara
It's about the new field near-field sound detection. Some animals are able to can use the sound to avoid the predators in the their environment. They can use have this ability to detect reputation vibrations, and also they have this possess special physical feature so they features that help them sense danger. In the lecture, the professor gives an example of a caterpillar. If the caterpillar is in danger, it can use tiny hairs on its skin to sense when something like a wasp is nearby. When the wasp flies toward the tree, the sound of its wings creates vibrations that make the caterpillar's hairs move. This alerts the caterpillar, and it can quickly drop off the branch to catch avoid being eaten. This way, the prey. In the lesson and passage, the professor go on to say that she use examples at an animal. If the animal was in danger, they can let the little hair stick out so they can avoid from the danger. Also, they can beat small animal at the movement so they can keep caterpillar stays safe.
KevinCai
In the reading passage, the near-field sound detection is the ability of the animals that allows certain animals to detect vibrations or be produced by the potential predators. In the lessoning, lecture, the professor provides uses the caterpillar as an example of the near-field sound detection. The caterpillar sometimes may meet the this ability. Sometimes, caterpillars encounter dangerous animals of their predators, the predators like wasps. The caterpillars They have tiny ears to hairs on their skin that help them sense the vibrations made by the wasp's wings. While many other animals might not hear the wasps coming and sense they are coming. And then wasp coming, the sounds other animals may not hear. And they drop caterpillar can detect it. When it senses the wasp, the caterpillar quickly drops from the branch to the ground fast and escape from the wasps. And that to escape. This is an a clear example of how near-field sound detection.detection works.
Gloria
With In the professor's lecture and later, lecture, we learned that some animals are able to animals, like caterpillars, can use sound to avoid predators. When sound is produced, made, it creates vibrations in the surrounding air. These vibrations air, which are known as called near-field sounds because they originate in come from close to the surrounding air.source. For example, when a wasp flies near a caterpillar, the caterpillar can sense the vibrations caused by the wasp's wings through tiny hairs on its skin. This ability to detect these vibrations helps the caterpillar avoid being eaten by the wasp.
Alexander
From this article, the writer is asking a question about lecture, the professor explains how some animals are able to animals, like caterpillars, can use to avoid and other noisy sound to attack predators. When sound is produced, it creates some heat from the predators and the writer is mentioning that one animal is on the tree and get some sound to avoid some predators. So it's very useful When a wasp flies near a caterpillar on a tree, the sound of the wasp's wings creates vibrations in the field air. These vibrations are detected by tiny hairs on the caterpillar's skin. This allows the caterpillar to sense the wasp's presence and maybe it can react quickly by dropping off the branch to escape. This ability to detect near-field sounds helps the caterpillar avoid some predators and it's very helpful.being eaten, illustrating the concept of near-field sound detection effectively.
Melody
Some animals are able to can use sound to avoid predators. When sound is produced, the critter create it creates vibrations in the sounding air. And air around them. For example, some catagories caterpillars have the ability to know near field sound detections. And detect these near-field sounds. If they might be are in a dangerous situation and could be in troubles, but situation, like when a wasp approaches, they have hair in can sense the vibrations through tiny hairs on their skin and they will have small movement in their hairs.skin. When the caterpillar feels the vibrations, it quickly drops off the branch to avoid being eaten.
Jimmy
Many animals, like caterpillars, need to be aware of their surroundings to avoid danger. For many animals, they want example, caterpillars have tiny hairs on their skin that can detect vibrations in the air caused by predators, like wasps. When a wasp flies close by, the caterpillar can sense it through these vibrations. This allows the caterpillar to live in so dangerous. So, only they advise a protractor, drop off the branch and a tiny hare, and flowers or tree. The nearby land escape, showing how important near-field sound detection is so important for many animals, because they live in very dangerous place. So, if they don't have them, they can't live in there. And the professional education industry is so good.survival.
Jarvis
The professor gives definitions explains that the near-field sound detection abilities is a special ability some animals have special physical features that allow helps them sense predators. For example, he talks about caterpillars. They have tiny hairs on their skin that can detect vibrations in the air when a predator, like a wasp, is nearby. When the wasp flies toward the tree, the sound of its wings moves the air, causing the caterpillar's hairs to sense the predators. He gives example of an insect like a caterpillar. It has danger. If the flesh to find the trees and the tiny hair to move. Their whispers fall caterpillar feels threatened, it will drop off the low highs branch to escape. This ability helps caterpillars avoid being eaten and they can make less noises to help them to avoid the predators and to find some prey. They have the organs that have the functions to have these abilities and they can make the sounds more lower and lower. It helps them to survive very well in the their environment.
Bianca
The professor mentioned an insect catacomb talked about caterpillars as an example, catacomb example of near-field sound detection. For instance, when a caterpillar is crawling alone in the grass on a branch and some dangerous insects want to eat them, and this time the other fly between the trees may make some other sounds, and this a dangerous insect can't fight it, so this time like a wasp approaches, it can sense the catacomb vibrations caused by the wasp's wings. The caterpillar has tiny hairs on its skin that pick up these vibrations. When it realizes that a wasp is nearby, it can quickly drop under off the grass branch or run somewhere move to a lower branch to avoid this predator being eaten. This ability to eat them, this can help them to get leave and avoid predator to eat them and keep their safety, so this is a near fail sound.detect nearby sounds helps the caterpillar stay safe from predators.
Dorcas
Animals will use sound to avoid predators by detecting vibrations in the predator and they can create a vibration air. For example, caterpillars have tiny hairs on their skin that can only be listened by their predators so that they can take action to protect themselves. For example, sense these vibrations. When a predator, like a wasp, approaches, the caterpillar has some special voice that can only be listened by the predator, so when the predator listens to the sound, they will stop and give the caterpillar time for them to escape to the ground so sound of its wings creates vibrations that the caterpillar can escape in time. When the predator falls onto the tree, feel. This helps the caterpillar will feel it and say this voice out and know that danger is near. As soon as the caterpillar will escape senses the wasp, it quickly drops off the branch to the ground in time.escape, allowing it to avoid being caught.
Emily
The sound helps caterpillars avoid predators because they can help them to avoid the predator because the near-field sound is detection. It can help them to detect the vibration or near-field sounds. The speaker gives For instance, in the example lecture, the professor talks about a caterpillar on a tree. When a wasp flies nearby, the captain who is caterpillar uses tiny hairs on its skin to sense the tree and gives vibrations from the example of wasp's wings. This helps the caterpillar realize that a predator like a floss is coming. So, when it detects the floss nearby wasp, the tree because caterpillar quickly drops off the captain has a tiny hair so they will know and easily branch to move. Then the near-field sound can make the wolf fly away and the captain will be safe.escape, ensuring its safety.
Rachel
Some animals can avoid their predators by making some special sounds, because maybe the other animal cannot detect these special sounds. In this lecture, the professors have an example. It's a kind of insticate. It's called a capillary. When some dangerous or some predators come into the area, the cancers will make some detecting special sounds that is tiny enough to avoid the other animals can't hear. In the lecture, the professor gives an example of a caterpillar. When a dangerous predator, like a wasp, approaches, the caterpillar has tiny hairs on its skin that can sense the vibrations made by the wasp's wings. This allows the caterpillar to hear. They will know if that there is danger or not.nearby. When it senses the wasp, the caterpillar drops off the branch to escape, which helps it avoid being eaten.
Trinity
The professor lists talks about caterpillars as an insect, cannibal. This insect example of near-field sound detection. These caterpillars can discover the sense danger through vibrations in the sounds and air caused by sounds, like the wings of a wasp. When they detect these vibrations, they can react quickly to avoid the predator. They can receive the vibration from the surrounding air and they can discover the predator very quickly and move. But most of the Most other animals don't have this ability, that's why they can't survive.which makes it harder for them to escape from threats.
Hanbo
Some animals are about to can use sound to avoid products can't produce and should be wasted like was fried. The rule is totally here and mix it, so some totally here rules. Most animals are unable predators. For example, caterpillars have a special ability called near-field sound detection, which helps them sense vibrations in the air. When a wasp flies nearby, it creates vibrations that move tiny hairs on the caterpillar's skin. This allows the caterpillar to detect this kind of the wasp and drop off the branch to escape danger. So, near-field sound have ability not us. Near-field sound decoctions have special physical features that allow them to sense a pure change. A pure change producers will take actions to produce themselves.detection helps caterpillars stay safe from predators.
Selina
The passage is trying explains what near-field sound detection is. Animals have abilities to tell us what is a protect themselves from predators, and the listening passage supports this idea. It mentions that dangerous insects, like wasps, can find caterpillars using near-field sound detection. Nowadays we all know The caterpillar has tiny hairs on its skin that animals can have their own ability to prevent getting hurt from the other protectors and additionally the listening passage agree with this opinion. She points out that the danger insects may find them help it sense vibrations in the air caused by the wasp’s wings. When the caterpillar realizes a wasp is nearby, it drops off the branch to escape, which helps it avoid being caught. This shows how near-field sound detection and they may eat them and then the helps animals voice can happen some voice that to protect them stay safe from giving away from the danger and it's the sense of their the sense a part of their function is in their tiny hair that can help them to realize the other animals around them.predators.
Tracy
In the article, it discusses the how near-field sound detection is to help helps animals to avoid predators and create evaporation by allowing them to sense vibrations in surrounding areas to keep away from dangers. the air. In the lecture, the professor give gives an example of the a caterpillar. It's The caterpillar is often crawling along by a branch of a tree, but it can encounter danger from predators like wasps. The caterpillar has tiny hairs on its skin that can detect these vibrations. When the wasp flies toward the tree, but sometimes they will meet some dangers. And they have the sound of its wings creates small movements in the air, which make the caterpillar's hairs move. This helps the caterpillar sense the wasp's presence. Once it realizes there is a tiny hair. And sometimes they make sound if they meet some dangers. And they will do some small movements. And they have a lower ground so threat, the animal cannot caterpillar drops off the branch to escape, making it harder for the wasp to find those preys. And at last, they be safety.it. This way, the caterpillar stays safe.
Nina
First, near-field sound detections, detection means that means some animals have the sound ability, this is a physical ability to hear sounds that can help them detect the potential dangers, to dangers and avoid being hurt harmed by the predators. And the The professor illustrated the this concept of the near-sound by giving with an example of the capybaras. And capybaras caterpillars. Some caterpillars can have the ability to avoid the dangers beforehand, sense threats because they have tiny hairs on their skin that pick up vibrations in the tiny ears and exposing ears, and air. For instance, when a wasp flies nearby, the sound of its wings creates vibrations that move these tiny ears can, when they move, they have hairs. This helps the caterpillar detect the wasp before it gets too close. Once the caterpillar senses the danger, it can quickly drop off the branch to make some sound and make some movement, and this has helped them to avoid the predators escaping the dangers beforehand. In that case, they can survive in a particular habitat, and it escape. This ability is really beneficial for them to live.their survival in their habitat.
Bill
The capital in this near-face caterpillar uses near-field sound detentions can detection to avoid some dangerous environment and timing around the capitals. They can't avoid and don't close to these operations, and the near-face sound detentions can remind danger from predators like wasps. When a wasp flies near, it to do some things and to protect it to compare of the near-face sound detentions. All in all, the capitals can live creates vibrations in the environment, have two specialists, so they air. The caterpillar has tiny hairs on its skin that can live sense these vibrations. When it detects the wasp, it quickly drops off the branch to escape. This ability helps the caterpillar stay safe in it and don't be poor in it.its environment.
Stanley
The speaker gives professor talks about caterpillars as an example of some kind of cat, they near-field sound detection. Caterpillars have tiny hairs on their skin that can use sound sense vibrations in the air caused by a predator, like a wasp. When the wasp flies nearby, the caterpillar can feel the vibrations and quickly drop off the branch to avoid a predator, and they can't hear near-field sounds, because some special physical features allow them to have the ability to hear those sounds.being caught.
Harry
Some animals will use sound to avoid predators, and some animals have ability to know one way they do this is through near-field sound detection. Some animals detect vibration For example, caterpillars can sense vibrations in the air caused by predators like wasps. They have tiny hairs on their bodies that pick up these vibrations. When a wasp flies nearby, the caterpillar feels the movement of the air and realizes it might be in danger. To protect itself, the caterpillar drops off the branch it’s on and falls to a lower branch or near-field, and a special physical feature allows them the ground, allowing it to protect themselves, and escape the special sound takes action to protect themselves. Some animals will have special sound that their families can hear to warn them to protect themselves.wasp.
YukiYu
Some animals can, according to the sound, can use sound to avoid the predator. But predators, while others cannot. Near-field sound detection helps some animals can't. stay safe from dangers. The near-field sound can help some animals to avoid some dangers. And the professor makes gave an example. That is example of a caterpillar. The caterpillar which is on the trees a tree, and when the flies want a wasp comes to eat them. And it, the caterpillar can, according to can sense the sound, to avoid sound of the caterpillar. They realize wasp's wings. It has tiny hairs on its skin that pick up these vibrations. When the caterpillar realizes there are some dangers near them. And they dropped is danger nearby, it drops off the trees so that they will be saved.tree to escape the wasp and stay safe.
Angela
The professor gave us an example explained that some animals animals, like caterpillars, use their sounds sound to avoid predators and also such as throwing predators. For example, caterpillars have tiny hairs on their skin that can detect vibrations in the air caused by a wasp's wings. When a wasp flies close by, the caterpillar senses these vibrations and they can realizes it might be in danger. Instead of staying on the branch, the caterpillar drops down to a lower branch or to the ground to escape the wasp. This ability to detect near-field sounds helps the caterpillar protect themselves and approaching predators. The professor gave us the animals to know that this animal, some animals can't hear the sound and that they can't protect themselves safely and some animals can hear the sound that they can fly away and they can save themselves and also they can use sound to run away fromitself from predators.
JerryTu
The reading material introduced the concept of near-field sound detection. It happens detection, which occurs when animals meet predators. They will like need to avoid them. So they will create a type of vibration that's called near-field sound. predators. To illustrate that, this, the professor provided gave the caterpillar as an example. That's when example of caterpillars. When caterpillars are crawling on the trees. Some dangerous wasps branches, they may appear. But be threatened by wasps. The wasps' beating wings will create vibrations that move the caterpillars' tiny hair from their skins. So they can feel the presence of the wasps. They may drop hairs on the ground so caterpillars' skin. This allows the caterpillars to sense the wasps' presence. Once they can realize that a wasp is nearby, the caterpillars drop off the branch to avoid the wasps.being caught, ensuring their safety.
Isabella
Some animals have the ability of making to detect sounds for to help them to avoid predators. So them When they hear sounds, it creates vibrations in the air, which is known as near-field sound detection. For example, caterpillars have this ability. When a wasp flies towards them, they can sense the vibrations and they have from the ability of near flat sound to detection dangerous. And for example the insects, they have the ability wasp's wings through tiny hairs on their skin. This helps them know when they are in dangerous or in the trouble, the cart will be moved so danger. If they will know the information about that they need to be avoid. And they also have the tiny ear so sense a threat, like a wasp, they can hear quickly drop off the very small sounds. And branch they can be moved are on to the safe place and the escape to a safer place. This ability play an is really important role in for their environment.survival.
Betty
From the reading, we can know learn that some animals use sounds sound to avoid predators. They can create vibrations and they have the predators by creating vibrations, which are called near-field sounds, such as originate or begin. And then we can know that most animals are able to detect predators, sounds because they have ability to perceive predators. And in the listening passengers, if some animals meet the danger, they can walk or fly in the trees and turn their head around. Also, they can make sounds to see the small movement and drop fall start close to the low grid, source. Most animals can't detect these sounds, but some can, which helps them sense danger. In the lecture, the professor gives an example of caterpillars. When a wasp approaches, the caterpillar can feel the vibrations from the wasp's wings through tiny hairs on its skin. This helps the caterpillar realize there's a threat, and that they are saved.it can drop off the branch to escape. So, this example shows how near-field sound detection helps caterpillars avoid being caught by predators.
Cordelia
Many animals can use their sound to avoid the predators because they originate it comes from near some source and they can produce by protein productor. the source. For example, the caterpillar. The caterpillar is an insect which let's talk about caterpillars. Caterpillars are insects that live in the train. The caterpillar trees. They have many predators predators, like whales wasps and flies birds, that want to catch and eat the caterpillar. them. The caterpillar has tiny hairs on its body that can produce some small movement with sense movements in the predator here. air. So they when a wasp flies nearby, the caterpillar can fall into feel the ground vibrations and they quickly drop off the branch to escape. This way, it can be saved.avoid being caught and stay safe.
class2027期中考试修改文稿点这里
Amanda
In this lesson and the reasoning passage, it was introduced lesson, the topic of animal how animals protect themselves from the danger and there are two reasons of the animals to protect themselves. The first reason was introduced. One way they do this is that it's about through sound. For example, when a predator is nearby, it often makes noise, like the sound because of its wings. Animals can detect these sounds, which helps them know when to run away. Another important aspect is the predators capture the prey, environment; animals often hide in grass or other areas to stay safe. So, they always will run away fast use both sound detection and it will make some voice or sounds. So animals could lessen the sounds to away the predators and the second reason is that it's about the environment because animals have their surroundings to protect themselves and they should run away fast. They can run near the field or the grass so it can protect themselves self-safed and easily.from predators.
Clara
The article talks about the near-field sound detections. Some detection, which is a special ability some animals have this function. Can to avoid predators. This ability allows them to detect vibrations in the predators. First, it can detect verification sounds, so they can avoid from air, which help them sense when a threat is nearby. For example, in the protector. Second, if this animal have this species, they have physical features, so they can avoid for the predators. In the listening passage, lecture, the professor talks about explains how caterpillars use this ability. When a wasp flies close by, its wings create vibrations in the example of air. The caterpillar has tiny hairs on its skin that can sense these vibrations. If it detects that a wasp is approaching, the insects. If they have in danger, they can hurt caterpillar will quickly drop off the danger with their tiny hair, and they make sound branch to move the tenure her, so they can keep escape, which helps it stay safe.
KevinCai
The Near Field Sound Detection Near-field sound detection is a phenomenon that where some animals are unable to can sense sounds that come from nearby sources. In the lecture, the professor talks about caterpillars as an example. These caterpillars have tiny hairs on their skin that can detect vibrations in the air. When a wasp flies towards the tree, the sound in the surrounding air of its wings creates vibrations that which begins near the sound source. In the listening passage, the professor gives an example of caterpillar. The caterpillar lives in the leaves and has some tiny ears for the herd to hear the something tiny that other animals can't hurt. And one dangerous insect was trying to eat it and when the caterpillar heard can sense. Once the sound caterpillar realizes that a wasp is nearby, it drops off the branch to escape the threat. This ability helps the caterpillar avoid being eaten and knowing that the was coming closer, they dropped all the leaves. And it escaped from the well so they can be alive.stay safe.
Gloria
Just like the readings, some Some animals are able to can use sound to avoid for dead deadness when sound is produced, it creates predators, just like the caterpillar example from the lecture. When a weeper wasp approaches, the caterpillar can sense the vibrations caused by the wasp's wings. It has tiny hairs on its skin that pick up these vibrations in the sun, a sun thing air. This weeperation are unable ability to detect this kind of sound in a however sound animals can ability near-field sounds helps the caterpillar react quickly by dropping off the branch to know as near-field sound produced by potent animal with near-fined sound.avoid being eaten.
Alexander
According to this article, I know that the lecture, some animals are able to animals, like caterpillars, can use ground to sound to avoid predators when predators. When sound is produced, made, it creates a void vibrations in the somebody. According to read, I mentioned air. For example, when a wasp approaches, its wings create vibrations that the Arctic Rheater is for instance dangerous, they may be in trouble. They have a really twin hair caterpillar can sense through tiny hairs on its skin. This allows the caterpillar to detect the wasp and small movements, and they don't can fly. It's a very vulnerable way drop off the branch to protect themselves and it will be very safe.escape. This ability helps the caterpillar stay safe from predators.
Melody
The mood was there In the lecture, the professor explained how caterpillars use near-field sound detection to avoid predators like wasps. When a wasp flies near a caterpillar, the sound and of its wings creates vibrations in the air. These vibrations are not as near-field. Sound becomes there like nothing or begin. Here the sound source is the most animals unable to detect their kind of sound and the improvisers, discussions, some danger in the chest and some animals have really detected by tiny hairs which is a really tiny hair mood.on the caterpillar's skin. This allows the caterpillar to sense the approaching danger and drop off the branch to escape.
Jarvis
Actually, many Many people talk about the near-fail near-field sounds, which are sounds and the sound is creates the that create vibrations in the surrounding air. air around them. These vibrations are no as they hear near-fail sound source. what some animals can detect. Animals with the near-fail sound detections abilities ability to hear near-field sounds have special physical fortunately that allow them to sense the sounds in the conditions. And the professor gives example about the caterpillar and the oes. And the flies repeat their wings and the oeskins hear them. And fortunately, zero be sensed by the predators and predators may give the reflections about the hunting, the animals features that help them sense these vibrations. For example, the professor talked about caterpillars. When a wasp flies nearby, it beats its wings, creating vibrations in the air. The caterpillar has tiny hairs on its skin that can sense these vibrations. If the caterpillar detects the wasp, it will drop off the branch to check these detections.avoid being caught. This ability helps the caterpillar stay safe from predators.
Bianca
In order to explain what is the near-field sound detection, detection is, the professor in biology class makes uses the caterpillar as an example. Some caterpillar caterpillars are on the trees trees, and in the grass there are some dangerous insects like flies and so on. And one wasps nearby. While some caterpillars may find this dangerous insect but detect these threats, others might not notice them. The caterpillar has tiny hairs on its skin that can sense vibrations in the other may not see. So this one may use it tiny hair and make sounds to remain this air caused by the other caterpillar and then they will fly away or run under the grass. And this dangerous insect will can't fight this caterpillar and wasp's wings. When the caterpillar will feels these vibrations, it knows to drop off the branch and hide, making it less likely to be free, will be safe.caught by the wasp. This ability helps the caterpillar stay safe from predators.
Dorcas
To avoid some predator catch the catch itself, being caught by predators, some animals will create can detect vibrations surrounding in the air. Take catapult for example. For example, take caterpillars. When catapult a caterpillar is on my list won't be a branch, it can sense danger if a predator, like a wasp, is nearby. The wasp makes a sound with its wings that creates vibrations. The caterpillar has tiny hairs on its body that can feel these vibrations. When the next, caterpillar senses the predator wasp, it will come drop off the branch to escape and they will be very dangerous if they just keep their own as that top. So they will use their tiny hair on the head to prevent them from the danger. When some predator fly to them, they will make sound and their tiny hair will feel them to warn the catapult. So the catapult will fall to lower ground to prevent itself be catch by their predators.stay safe.
Emily
The winner thinks In the lecture, the professor explains that animals some animals, like caterpillars, can show the detect near-field sounds to avoid predators. For example, when a wasp flies near a caterpillar, the detection about movement of the wasp's wings creates vibrations in the air. The caterpillar has tiny hairs on its productors. And they skin that can do that. They can use say sense these vibrations. When it feels the vibrations, it knows to avoid drop off the productors about branch to escape the speaker, give them about wasp. This ability to detect near-field sounds helps the computer, its protectors like worms when they come back to their worms inside, nearby them. If they make some sounds like when they move, they can, the computers can listen about this and do some exercise. Let's come. Then the worms may go away.caterpillar stay safe from predators.
Rachel
Some animals have the adaptation adaptations that can help them escape from the predators' catching. So, in predators. In the lecture, the professor produced an adaptation explained how certain animals can detect sounds made by approaching predators. For example, caterpillars have tiny hairs on their skin that can sense vibrations in the air. When a wasp flies near, the sound of its wings creates vibrations that the caterpillar can detect. Other animals can escape by making some special sounds. For example, if they are under trees in might not hear these sounds, but the predators' coming, they can make special sounds on their skins. And caterpillar can. When it senses the other animals cannot recognize wasp, it quickly drops off the sounds, cannot receive the sounds. So, animals can escape immediately.branch to avoid being caught.
Trinity
This The professor is introducing discussing how some animals have adaptations of animals which can that help them avoid predators using sound. When sounds are made, they create vibrations in the prodater from songs. When the songs were created and air that some animals can receive detect, while others cannot. For example, caterpillars have tiny hairs on their bodies that can sense these revisions in surrounding. And other animals vibrations. When a wasp flies nearby, the caterpillar can not detain these kinds of songs. And they can take action feel the vibrations from the wasp's wings and quickly drop off the branch to avoid escape danger. This ability helps the dangerous to caterpillar protect themselves.itself from being eaten.
Selina
In the natural rules, nature, many animals have their own way different ways to protect themselves, to avoid the themselves from predators. Some animals can use their sound to create the vibrations in the surrounding atmosphere. air. Most animals didn't have the ability to cannot detect the these sounds, so it which can help them to pretend and run away. escape from danger. In the listening passage, lecture, the professor gives an example of insects to indicate the diffusion, that is, catapult. In the natural, the catapult is always very dangerous insects, specifically caterpillars. Caterpillars are often at risk because some insects many insects, like wasps, want to eat them and they may make them in trouble. In them. On the skin of the catapult, they have caterpillar, there are tiny hairs that help it sense vibrations in the air. When a wasp flies nearby, the movement of its wings creates vibrations that make these tiny hair, said tiny hair, he helps them hairs move. This allows the caterpillar to make sound sense that a wasp is approaching. Once it realizes the danger, the caterpillar drops off the branch it's on to escape, so the wasp flies right by and protect themselves from the dangerous insects who want to eat them and want to make them in trouble.caterpillar stays safe.
Tracy
The reading is an expanded explains near-field sound detections. It detection, which is when some end-mokreative vibrations, and there are some end-mokreats that cannot detect those end-mokreats, and animals can sense vibrations in the air to this way to prevent them from avoid predators. In For example, in the lectures, lecture, the professor gives an example of capillaries. It talks about caterpillars. When a wasp approaches, the caterpillar can have a detect it through tiny hair and stick around, and when hairs on its body that feel the capillaries are vibrations from the danger, wasp's wings. This helps the caterpillar know when to drop off the branch to escape danger. So, the example shows how important these tiny hairs are for the caterpillar's safety by allowing it can have a tiny hair and stick around ears. And then it can have a small movement in the ear, and then it can have a small drop of blood, and then it can have a large drop of blood, and then it can be safe.to sense nearby threats.
Nina
So the cumseph concept of near-fieldsum near-field sound detection is that the some animals will can take actions with their herdsum sond and he will to avoid predators by using sound. When there are vibrations in the predators to survive. And it's due to the vibrant nations exposed to surrounding ears and will notice air, these animals and when they hear. And the can sense nearby dangers. The lecture illustrates cumseph by giving gives an example about the catapile ears. And cumuleteal ears made some predators and means there are dangerous wild catamint troubles. They of caterpillars. Caterpillars have the tiny here exposing the ears hairs on their skin that can detect vibrations in the air caused by predators, like wasps. When a wasp flies near, the caterpillar feels the vibrations and it's really tiny realizes it might be in danger. To stay safe, the caterpillar drops off the branch it’s on and falls to a lower branch or to the ground, which helps it will receive the sond made avoid being caught by the predators and using the vibrant nations to have them realize that the dangerous is coming. So they will to drop falls and lower the brains and at last the catapile ears can be safe.wasp.
Bill
New In biology class, we talk learned about near-field sound detection, which is when some animals can hear sounds that are very close to them. For example, caterpillars have tiny hairs on their bodies that can sense vibrations in the new field sounds, air. When a definition wasp flies nearby, the sound of its wings creates vibrations that the details. And caterpillar can detect through these hairs. This helps the caterpillar know that a predator is close, so it can help you to now, why drop off the imported, branch and to, and to, and further than the, and interesting environment, then second, the new field sounds details. Details can't make the, make the discusses weight some, some scattered animals, and it can help you to run out to the dangerous, and they can help you to protect your, your, your families.escape, keeping itself safe.
Stanley
In the natural, there nature, most animals are almost most of animals unable to use sound effectively to detect nearby threats. However, some animals have special physical features that allow them to hear these decent, some nearby. But there are some animals, they near-field sounds. For example, caterpillars have some special or physical features. So they have tiny hairs on their skin that can sense vibrations in the air. When a wasp approaches, the movement of its wings creates vibrations that the caterpillar can detect. This ability helps the caterpillar to listen to, can hear those sounds. That can protect them drop off the branch and they can be safe. They can hear small movements nearby so they can be avoid being caught by the wasp, keeping it safe.
Harry
And what's the near field sound detection? The nearest field So, near-field sound detection is the a way for some animals to protect themselves of animals. And from predators. For example, in the animals will lecture, we learned about caterpillars. They have the near field tiny hairs on their skin that can hear sense vibrations in the different sounds air. When a wasp flies close by, the sound of its wings creates vibrations that other animals the caterpillar can listen and when they... And here is detect. This helps the sound. They caterpillar realize that there’s danger nearby, and it can quickly drop off the other animals are in dangerous and they will protect themselves.branch to escape. This ability to hear these near-field sounds helps them stay safe from threats.
Sky
The animal fly In the lecture, the professor explains how some caterpillars can detect danger, like a wasp, using tiny hairs on their skin. When the tree because there is some danger on wasp flies nearby, the ground. And if vibrations from its wings move the trouble is there, if hairs, alerting the fly on caterpillar to drop off the tree is either well-being safe.branch and escape. This example shows how near-field sound detection helps the caterpillar avoid predators.
YukiYu
Some animals can't according to use sound to avoid the predator predators because they don't have a the special physical future and in features that allow them to do so. In the lecture they make lecture, the professor gives an example about the caterpillar of a caterpillar. The caterpillar can hurt hear very tiny sounds even that spread through the air. This ability helps it detect dangerous sounds nearby, which protects it from threats. For example, when a wasp flies toward the tree, the caterpillar's tiny hairs can sense the vibrations made by the wasp's wings. This helps the caterpillar know that it’s in danger, and it can drop off the air so that branch to escape. Most other animals can't detect these sounds, but this can remain in sound dangerous made close to them that will protect them to avoid the danger they will be survived but almost animals have not been able to detect the sound that has to benefit ability is really beneficial for the caterpillarcaterpillar's survival.
Angela
In the nature, some animals have the ability about their hearing to save hear sounds that help them protect themselves from the danger. And they They can sense approaching predators and approaching predators, take action from danger. And the to avoid them. The professor gave us an example. And that's example of a caterpillar in fact, a tree. When a wasp flies toward the tree, it creates vibrations in the tree, such as fly or horse. And air. The caterpillar has tiny hairs on its skin that can detect these vibrations. When the fly was very, it's very tiny here and they have very tiny here. And when they made caterpillar senses that a danger, wasp is nearby, it quickly drops off the near and branch to escape danger. This ability to detect near-field sounds helps the concept of the near field sounds, detection can help them to run out of round dangers. So that they cannot be very easy to uncapped caterpillar avoid being caught by the predator.
JerryTu
The reading material we talked about explained the concept of near-field sound dictation. It detection, which is when an animal, field sound, animals, organisms, we'll feel some predators or dangers and they animals can sense vibrations in the air to avoid them. predators. In the listening material, we have the professor provide the calipers used caterpillars as an example. When calipers a caterpillar is crawling on a tree branch, it might be in danger if a wasp flies nearby. Other animals might not hear the trees, wasp, but there's a webs, a webs trying caterpillars have tiny hairs on their skin that can detect the vibrations from the wasp's wings. When the caterpillar senses this sound, it quickly drops off the branch to eat them. A webs, calipers, tiny hair in their skins, where they'll feel escape the air, the threat. This example illustrates how near-field sound of the webs and they will make a move to a lower place or to the ground. So they will be saved as an example. You'll illustrate the field sound.detection helps caterpillars stay safe from predators.
Isabella
The near field concept of near-field sound can help the detection helps animals to avoid predators. Some animals are unable to can't detect certain sounds, but this predator, so this kind of sound can help ability allows them to detect them. And for example about sense vibrations from potential threats. For example, caterpillars have tiny hairs on their skin that can pick up vibrations from sounds like the insect captors, they have wings of a wasp. When a wasp approaches, the ability caterpillar can feel the vibrations through these hairs. If it senses danger, it quickly drops off the branch to make this sound. They also live in avoid being caught by the French entries. If wasp. This way, the dangerous is calm, they will be in trouble. So if they might not have the sound, they will be found in the predators. So they make the tiny hair to the area or the ocean. So they hear the sound, they will move to the ground and the other ways. So this insect will be very caterpillar stays safe.
Betty
For In the lecture we can know lecture, the professor explains that some animals can use the sounds to avoid predators. When these sounds produce, it can For example, caterpillars have reparations in a super-aird. However, most animals tiny hairs on their bodies that can detect sounds when they hear them. But some predators have a serosabileted care-hop body-coast. We can see, we can hear the sound both and vibrations in the timing it's worst, it's drop and fall.air caused by sounds, like the wings of a wasp. When the caterpillar senses the wasp is near, it drops off the branch to escape, showing how near-field sound detection helps it avoid danger.
Cordelia
So, animals use their sounds to avoid predators and protect themselves themselves, like the caterpillar. The For example, when a caterpillar leaving the tree is on a branch and the whales want to eat the caterpillar, but a wasp flies toward it, the caterpillar can use their hair to fill sense the whales. Because wasp because of tiny hairs on its skin. These hairs can feel the vibrations in the air caused by the wasp's wings. When the caterpillar hairs in realizes the ears can fill wasp is near, it drops off the movement and they can be prepared before branch to escape. This way, the whales come. So, they caterpillar can hide for and avoid being eaten by the whales so they can use some to avoid predators to make them safe.wasp.
class2026期中考试修改文稿点这里
Kevin
Some animals seek it and create the use sound to avoid the predators. And predators, and the lecture gave an example. There's example of this with caterpillars. When a kind of catapult. The catapult caterpillar is delivering the trees. And when they are on the tree, some a branch and a dangerous insect came. This insect may eat the catapult. And all the insect, like a wasp, approaches, it can be in danger. While many animals can might not hear the sound of wasp, caterpillars have tiny hairs on their skin that can sense the insects. But some special features. A little here on vibrations made by the skin of the catapult. wasp's wings. When the insect makes caterpillar detects this sound, it quickly drops off the sound, they hear. They move and they will realize there is some animal. And they will jump branch to escape, allowing it to avoid being caught by the ground. And the insect won't see him and the catapult was safe.wasp.
Richard
When songs sounds are produced, here comes with a vibration. So they create vibrations in the concept is some animal air. Some animals can use the vibration and these vibrations to detect them danger and avoid from being preyed upon by some dangerous predator. The example that predators. For example, Professor Yu uses is a catacore talks about caterpillars, which is a are small insect. insects. When they are crowning crawl on trees, they can use tiny hairs on their tiny hair bodies to detect some dangerous predator sense vibrations from approaching threats, like flies wasps. When the caterpillar detects these vibrations, it quickly drops off the branch to escape danger and some bigger insects. So when they be between, land safely on a lower branch or the vibrate will be detected by the crowns so they move away and drop to the lower area or landing on ground.
Martin
The professor is talking about the gave an example of Kalakla. There is a wisdom, maybe caterpillar to explain near-field sound detection. The caterpillar has tiny hairs on its skin that can detect vibrations in the other animal can hear it, but air, like the Kalakla has sound of a tiny ear wasp's wings. When the wasp flies close, the caterpillar feels these vibrations and knows it’s in this gang around danger. To stay safe, the ear. It is very sensitive for sound. If they scan caterpillar drops off the worst, it can... The first time and branch to avoid being caught by the Kalakla will fly right and up, so the Kalakla is safe.wasp.
Fielder
I think it shows us a special behavior that some little small animals how use to survive from the predators they will make a very special sound to tell others and most of that the predators are nearby and tell them to run away The first thing to give an example of a very tiny insect predators. For example, if a wolf wasp wants to catch this insect, this insect a caterpillar, the caterpillar has some tiny hairs on his skin and when their wolves are closing by their skin will be stripped down its skin. When the wasp comes close, the movement of its wings creates vibrations in the air that make the caterpillar's hairs move. This helps the caterpillar sense that the wasp is nearby. Once it realizes the wasp is coming, the caterpillar quickly drops off the branch to escape, either falling to a lower branch or to the air and then they will make a very special sound to tell ground. This way, the insect that there are some animals closing to him maybe it's a wolf and these insects will run away and will find another branches, maybe a lower branches and maybe in caterpillar can avoid being caught by the ground and this will escape from the predatorswasp.
Wesley
There's Some animals have special features of animals that help them detect sounds to avoid predators. For example, in the lecture, the professor talked about caterpillars. Caterpillars are insects that can create be threatened by predators like wasps. When a sound to avoid their predator. And always these animals have some physical features. For example, from the professor, the caterpillar. And the caterpillar is an insect. And wasp flies near, it has a predator like flies the wasp. And for example, the caterpillar have living in a tree. And when they know there's the predator closed by, and they have a small hairs decalant to the air. And when they did remind the wasp comes, and they can vibrate. Make some vibration like the small move creates vibrations in the air. So the crawling The caterpillar has tiny hairs on the and the create sounds, in this way its skin that can sense these vibrations. So, when it feels the wasp would escape and coming close, it drops off the caterpillar would be branch it’s on to escape. This way, the wasp might fly by without noticing the caterpillar, keeping it safe.
Vicky
The concept of near-field sound direction detection is how some animals, like caterpillars, can sense nearby dangers through sound. In the lecture, the professor talks about caterpillars on a way to make the... is tree branch. When a way wasp flies towards them, it makes noise with its wings. The caterpillar has tiny hairs on its body that can feel the animal to make their partners or the other animals know they have the dangerous. They will make some noise or sounds. And the professor, give example, is about the captoids vibrations in the tree. But air caused by the flies, wolves will take wasp. Once the dangerous for them. They will eat caterpillar senses the captoids. And wasp is close, it drops off the captoids have the tiny, tiny, tiny here. And the tiny here can find the wolves. And the captoids will make the sun until the others. And they can run in the ground branch to escape and to meet the dangerous.avoid being eaten. This ability helps them stay safe from predators.
Victoria
The man professor talked about near-field sound detection, which is how some animals can sense sounds that come from nearby. He gave us an example of caterpillars. When a piece, you see, the article is about wasp flies close to make the new field for the animals. And a caterpillar, it makes sounds that create vibrations in the listening parts of air. The caterpillar has tiny hairs on its skin that can feel these vibrations. When it senses the man gave us an example about wasp, it quickly drops off the caterpillar. I think it's one kind of insect. He talked about the caterpillars branch to avoid being eaten. This shows how to live in the small areas. Maybe in near-field sound detection helps the caterpillar care, only to come up in the tree and to want to eat something or to live their lives. They need to come down to a very big field and they have more sub-tires. They don't very easy to keep themselves.stay safe from predators.
Tina
The lecture is talking talks about near-field sound detection. It detection, which is that sound produced when sounds create reverberation vibrations in the surrounding area. To air around them. This is important for animals to detect reverberation by potential predator. And predators. The professor gives the professional case example about caterpillar. It is very dangerous for them of caterpillars, which can be in danger if the a predator flies too trace, they will be eaten. And as unanimals they will like a wasp comes near. Most animals might not hear that. But the wasp, but caterpillars have tiny hairs on their skin that can sense vibrations in the air. When the wasp flies, its wings make sounds that create movements in the air, which make the caterpillar's hairs move. Once the caterpillar has very tiny hair and their ears are wronged. So senses that something is flying toward it, it is easy for them drops off the branch to hear some tiny noises. And escape. This ability helps the walls when they fly they will migrate. They will realize that their tenders still will move moving too ground. So they will be caterpillar avoid being safety. And this is the way for caterpillar to avoid eaten by predators.
Leon
It The lecture talks about how some manual or animals, like caterpillars, can use sounds sound to avoid some pretty turns and then use predators. They have special features, like tiny hairs on their physical future to use the skin, that help them sense vibrations in air the air. For example, when a wasp flies close, its wings create vibrations that move these tiny hairs. The caterpillar can feel this and make their sounds, just like knows it might be in danger. So, to stay safe, it drops off the categories. Because of some time here on their hand, so when branch and falls to a lower spot, which helps it avoid being caught by the predators are flat and they can easily guess the information through their tiny hair and at this time then just follow on the ground and to avoid these predators.wasp.
Cicily
There is some insects have been used to Some insects, like caterpillars, can detect the sound to depend on the sound sounds to avoid the factor. So this predators. This ability is called the near-fade near-field sound detection. And there is a sample for the chemical, chemical is the kinds of small insects. They For example, caterpillars have tiny hairs when they get troubles and on their skin that can sense vibrations in the air. When a wasp flies nearby, the sound patterns want to fly, they want to eat them. They are tiny hairs when they move to realize the dangerous. Also, to stick out the hairs, and to make sound avoid to of its wings creates vibrations that make the factor, and don't caterpillar's hairs move. This helps the caterpillar realize that a predator is approaching. When it senses danger, the detections caterpillar drops off the branch to fly out.escape, avoiding being eaten by the wasp.
Steven
Some animals can use sound still to avoid predators. There For example, in the lecture, the professor talks about caterpillars. If a dangerous insect, like a wasp, is an example about insects, caterpillar. If the dangerous insects coming, the caterpillar will could be getting in trouble because the dangerous insects will wasp might try to eat them. But it. However, the caterpillar has a tiny air, so hairs on its skin that can sense vibrations in the dangerous insects make noise or flying or have some movement. The caterpillar can hear air. When the wasp flies near, the sound of its wings creates vibrations that and when move the caterpillar's hairs. This helps the caterpillar relies detect that something near it, they will fall to is coming. Once it realizes the ground. So that wasp is near, the caterpillar will be drop off the branch to escape. This way, it can avoid being caught and stay safe.
Zao
The concept of Lierfield near-field sound detection refers to the vibrations that animals can detect when sound is vibration that the animal produces sound. And some produced nearby. Some animals have ability to detect this vibration so that they can avoid predators. And the professor, Gave example, is an insect and the type of peeler. The type of peeler have the ability to sense these vibrations to avoid predators. The professor gave an example of caterpillars, which are insects that can detect the vibration. They these vibrations. Caterpillars usually live on branches in branch and trees. And the usually they are also the trees are the dangerous insects. And when these dangerous insects, they will eat capa peeler. And when they are movement, they will produce sound and vibration because the insect will stick, beating and movement. So the capa peeler can detect this trees, and they will fall into ground. And face threats from dangerous insects like wasps. When a wasp approaches, it creates vibrations in the insect, they will be safe.air with its wing beats. The caterpillar has tiny hairs on its skin that can sense these vibrations. When it detects the wasp, the caterpillar drops off the branch to the ground, allowing it to escape and stay safe from the predator.
Camilia
This lecture is talked talks about the mirror-fill sun detections. That near-field sound detection, which means some of the insects in order can use it to avoid predators. So they will find some of the sun, but actually not Not every insect can have has this kind of ability. So in this ability, though. In the example, the insect caterpillar can hear approaching threats because of its special features. It lives in trees, where predators might try to eat it. Some insects, like the caterpillar, have tiny hairs on their skin that just because some of the special features and some of the insects they have live can sense vibrations in the tree. So that's where air. When a wasp flies nearby, the trouble that some predators will eat them. But sometimes they cannot hear caterpillar's tiny hairs pick up the sun. So there's vibrations, and the caterpillar drops off the branch to find a special insect that they have involved a kind of tiny hear. And safer place. This helps it avoid being caught by the tiny hear can help them catch the vibrations and drops all the things done and find some safety places. And then just fly away to avoid the predators.wasp.
Selina
Near-field sounds sound detection is an ability to allow that allows certain animals to detect vibration vibrations or near-field sounds produced by potential predators. This allows helps them to sense and approaching predators threats and take action to protect themselves. The professor gives an example, the cat pullers, which will quote in the brains, but they may get trouble that the flying animals will eat them, but they have the tiny hair example of caterpillars, which can strike get into trouble if a flying predator, like a wasp, comes near. Fortunately, caterpillars have tiny hairs on their skin that stick out into the air. When a wasp flies toward them, the sound of its wings creates vibrations that move these tiny hairs. Once the cat pullers. And when the flying animals make sound, the tiny hair will be moved, and the cat pullers will move them, and they caterpillar senses that something is approaching, it will drop and work off the branch it’s on to around. Then escape. This way, the flying animals can't find wasp is likely to fly right past them, so they can be saved.keeping the caterpillar safe.
Alice
is said In the lecture, the professor explained that some animals can detect sounds to avoid predators predators, and some animals have an this ability is known as here a field sounds detection and allows certain animals to direct near-field sound detection. For example, caterpillars have special tiny hairs on their skin that help them sense vibrations sound produced and also in the lecture air. When a wasp flies near them, the professor mentioned i movement of the wasp's wings creates vibrations that the caterpillar can feel. This helps the caterpillar know that a threat is coming, so it can drop off the branch and escape to safety. This example for this the cataclete he has a high ability in the trees and some dangers he can do some danger shows how near-field sound detection helps animals like a walk or fly to the trees and other animals close caterpillars survive by relatives hear around the cataclete sound so they need to move around the west path drop doing on the ground and fly by another tree's catching cali coves so here is an example for the passage that near-future shooted detectionsensing nearby dangers.
Michael
In the reading, we learned that some animals have the song's dictations felt. It refers that animals' certain animals to dictate preparations or near-filled songs produced can detect sounds made by potential predators. In the lesson, the predators nearby. The professor gave us an example about of caterpillars. Caterpillars have tiny hairs on their bodies that help them sense vibrations in the air. When a caterpillar. And caterpillars, they have self-dictations. When wasp flies close by, the sound of its wings creates vibrations that these hairs can feel. This helps the caterpillar know that a predator wants is nearby. To stay safe, the caterpillar will drop off the branch it’s on to capture avoid being caught by the caterpillars, they will hear the detailed voice when the predator flies on the trees. And also, the predator makes songs with modes, moments. The caterpillars will... well, isn't it? So, it can make the draped orde.wasp.
Joyce
Near-filled Near-field sound detection is a way that some animals can use to avoid predators. Just like For example, the example given by professor talked about caterpillars. When a wasp flies nearby, the professor. There's an animal and a rabbit and when he's a praster, nearby, maybe it will be dangerous. However, it has a real caterpillar can sense the vibrations from the wasp's wings because of the tiny hill that hairs on its skin. These hairs move when the predator came wasp gets close, warning the caterpillar that it might be in danger. So, the caterpillar drops off the branch to escape the wasp and moved to the round-down, the waves, the waves well-sound. And then the tiny hill will move and then they will drop and then the animal will be stay safe.
Bobby
The professor's lecture talks about explains that some animals can hear some detect sounds that people can't. In the lesson humans can't hear. For example, caterpillars have tiny hairs on their skin that help them sense vibrations in the professor talks about it air when a predator, like a wasp, is nearby. This ability to hear these near-field sounds helps them react quickly and avoid being eaten. So, when a wasp flies close, the caterpillar can help animals hear some more actions that can help they get a fine food. And also you can hear feel the hear the...vibrations and drop off the branch to escape.
Carol
In the lecture, the professor in talks about how some animals, like caterpillars, can detect sounds made by predators, which is an example of near-field sound detection. For instance, when a wasp flies near a caterpillar, the social class looks vibrations from the wasp's wings move tiny hairs on the caterpillar's skin. This helps the caterpillar sense the danger and drop off the branch to have a different opinion with his famous person, and they call her She-Sings, and she don't want to let this her own opinion to the police face opinion. And she thinks she is very critical, and she has some critical thinking, but that makes her nervous, but the professor is very serious. She thinks she has this sense much better, because the thinking of these people over more than already go. Some people agree with some opinion, but some people agree with some opinion. And we just present our...avoid being eaten. This example clearly shows how near-field sound detection helps animals protect themselves from threats.
Joe
Near field sounds detectationalness. Some Near-field sound detection is when some animals are able to use sounds to help them avoid predators predators. For example, the professor talks about caterpillars. When a wasp flies near a caterpillar, it creates vibrations in the air. Caterpillars have tiny hairs on their skin that can sense these vibrations. So, when sounds are produced. It creates vibration the wasp gets close, the caterpillar can feel it and knows it’s in sounds surrounding ears. The professor gives an instance of caterpillar. So the caterpillar's predators is flies. Some flies well is them. So it's a threat. When the flies come into the surrounding ears, danger. To stay safe, the caterpillar will use their tiny ear drop off the branch it’s on and fall to a lower branch or the skin and beating them in ground, allowing the surrounding. So wasp to fly by without catching it. This ability to detect near-field sounds helps keep the one makes sounds from it. So their tiny ears move there, was a whisper. Then the flies will drop to the lower and fly right by from the caterpillar. So the caterpillars are caterpillar safe from the from biting their tiny ear and their skins. So it is of near field sound.predators.
Andy
Near fell Near-field sound detection is a feature of some animals that allows them to sense tiny sounds around them, which means that they can find some tiny sound around themself and it means some treble. So they can helps them avoid this treble. In the example danger. For example, the professor made an example of talked about caterpillars. When a caterpillar is resting on a branch, it might be in danger from a predator, like a wasp. Most animals might not hear the catapoeir. The catapoeir is an insect and for example when he just in the tree and do it itself, he made some dangerous like some other animals want to eat it. The catapoeir are threatened and then for another animal it can't listen to the dendroirs coming. However, there are some wasp approaching, but caterpillars have tiny hairs on their skin of catapoeir. So if that can pick up on vibrations in the dendroirs animals just fly around, there are small movements of air caused by the wasp's wings. When the wasp flies near, the caterpillar can feel these vibrations through its hairs. Then This helps the catapoeir caterpillar realize that a wasp is nearby, and it can just fly up quickly drop off the branch to escape and it's stay safe.
Lauren
On Some animals they can detect the sounds from their precter, predators and protect themselves. For example, it's about caterpillars are tiny animals that live in trees. Their main predators are wasps. If a wasp comes near, other animals might hear it, but caterpillars have special tiny hairs on their skin that help them sense the conoptery. As a conoptery, an animal is very tiny and the who lives vibrations in the trenches, in air caused by the trees. And wasp's wings. When they feel those vibrations, caterpillars can quickly drop off the predators, predators from them, is wolves. And if the wolves found them, the wolves will eat them. And the other animals, they can hear the sounds branch and escape from the wolves, but the conoptery, they can hear when the wolves move around the environment from the way next to the conoptery. The conoptery, they will lower their sounds and fly away.wasp.
Raymond
The reading passage introduced talks about how some animals have a an ability to know as called near-field sounds sound detection. This is what some animals use to ability helps them detect where vibrations or near-field sounds produced made by predators and then predators, allowing them to take actions action to protect themselves. In the lecture, the professor talks about the catacore. gives an example of caterpillars. These kinds of small animals live on trees and they are small. in trees. When danger insects or some predators climb up trees, they will make sounds. And the a dangerous insect, like a wasp, approaches, it makes sounds that create vibrations. The tiny here hairs on the catacore's skins will move. And then they will know that dangerous come and they will drop caterpillar's skin can sense these vibrations. Once the caterpillar realizes there’s danger, it drops off the branch to the ground away from the dangerous. And then they will get escape, ensuring it stays safe.
Jason
The professional professor's lecture talks about explains the concept of near-view near-field sound detection. Some animals have the ability to detect sounds that are close to them. For example, the professor talks about caterpillars. Caterpillars have tiny hairs on their skin that can sense vibrations in the air. When a wasp flies near the tree, the sound of its wings creates vibrations. These vibrations make the caterpillar's tiny hairs move, which helps it detect the sound response. Some animals have ability wasp's presence. If the caterpillar senses danger, it drops off the branch to hear near-view sounds. The professor give an example about the insect's caterpillar. The caterpillar has a really tiny ears. It avoid being eaten. This way, it can mind sounds, things, and trees. The caterpillar makes some sounds. The others hear this, can move their bodies. The horse, escape the predator of the caterpillar, won't eat them. If they hear this sounds, they will wrong work first so they can be and stay safe.
Isaiah
In the rating material introduced a definition named near field lecture, the professor explained near-field sounds, which are vibrations in detections. And the air that some animals use this can detect to avoid predators because the sounds means there are some vibration predators. For example, caterpillars can sense these sounds. When a wasp flies nearby, its wings create vibrations in the surrounding ears. And in air. Caterpillars have tiny hairs on their skin that can pick up these vibrations. When they feel the lecture vibrations from the professor used the insect cats, for example. These kinds of insects always rest in wasp, they drop off the branch and they have some predators, the minerals predators like flies. And there are certain divisions. And there are some tiny ears in their skins.to escape. This shows how caterpillars use near-field sound detection to stay safe from predators.
Regina
These lectures talk about the animals The lecture explains how some animals, like caterpillars, use sounds sound to avoid predators predators. The professor talks about describes how animals use sounds a caterpillar can sense a wasp flying nearby because of tiny hairs on its skin that detect the vibrations from the wasp's wings. When the caterpillar feels these vibrations, it drops off the branch to escape, which shows how near-field sound detection helps it avoid predators and it's pickouts many things and it's try to use animals use some wrong thing ears and some animals near the field and only organize the sounds and lead camp predators dangerous animals and some animals unabledanger.
Tom
Some Near-field sound detection is a term in spallogy that allows describes how certain animals to detect can sense vibrations or near-field sounds produced made by potential predators. In the lecture, the professor gives an example of caterpillars. When a wasp approaches, it creates vibrations in the air as it flies. The caterpillar can detect these vibrations through tiny hairs on its skin. This is an ability helps the caterpillar sense the danger and take action to protect themselves. In this listening material, itself, like dropping off the professor makes a B, this example. When B detects their vibrations or listens branch to other sounds, made avoid being caught by their predators, they would avoid to their predators and run off. So, in this the wasp. This way, it could easier put them to live in this field.the caterpillar increases its chances of survival.
class2027第二次月考修改文稿点这里
Amanda
In this the lecture, the man introduced the reason professor explained that some animals can use the voice or sound to avoid predators. This is because predators because the predators can be dangerous and they may catch and eat their prey. For example, when a predator approaches, the prey vibrations in the devoid eat them. air can help prey animals detect danger. The first reading is lecture mentioned how caterpillars have tiny hairs on their skin that can sense these vibrations. When a wasp flies nearby, the caterpillar can feel the movement in the air and know that it is about needs to escape. This ability to detect near-field sounds helps the air because when the predator comes here, it will and the air will surround some prey animals while listening to the surrounding air. And the second reading is about the ground. The underground with the predators come. It's very wrongly or moving so the animals' faith can touch the ground and they can know that the predator is coming.caterpillar avoid being eaten.
Clara
Feet Near-field sound detection is a way that allows some animals to can detect vibration vibrations or near-field sound sounds produced by potential predators. And also, it can allow the animals to sense a potential prey and take action to protect themselves. In the lesson, lecture, the lecture mentions the animals that professor talks about caterpillars, which have the ability to detect the vibration and sense this ability. For example, when a caterpillar is on a branch predator. and a wasp flies nearby, it might not be able to hear the wasp like other animals do. However, the caterpillar has tiny hairs on its skin that can sense the vibrations from the wasp’s wings. When the animals are troubled in caterpillar detects these vibrations, it knows that a wasp is close and can drop off the tree and other animals can't hear branch to escape danger. This ability helps the sound, but the animal can hear the tiny hearth and the wind makes sounds. So they can sense this vibration and go to the lower ground.caterpillar stay safe from predators.
KevinCai
The near-filled Near-field sound detection is the ability that some animals have to detect the vibrations created by sounds coming from the sound source closely by the nearby potential predators. In the listening passage, lecture, the professor provides a caterpillar talks about caterpillars as an example. The When a wasp flies toward a caterpillar, the caterpillar was the trace of the west. When the west is flying towards the caterpillars and trying to eat it, the caterpillars have the tiny ears to hear can sense the vibrations produced from the wasp's wings through tiny hairs on its skin. This allows the caterpillar to realize that something dangerous is approaching. To escape, the caterpillar quickly drops off the branch it's on, which helps it avoid being caught by the wings. And at the same time, it wasp. This ability to detect nearby sounds and vibrations is known that something is coming near the caterpillars and escaped from and escaped at the same time. This phenomenon is called near-filled what we call near-field sound detection.
Alexander
From In the professor's lecture lecture, he explains the concept of near-field sound detection using caterpillars as an example. He mentions that caterpillars have tiny hairs on their skin that can detect vibrations in the inter-breast, air. When a wasp approaches, the concepts sound of near-fields its wings creates vibrations that the caterpillar can sense. This ability helps the caterpillar avoid being eaten by the wasp, illustrating how near-field sound detection. Here, the professor is at least two reasons. The first reason is the repressions are knowing as near-fields sound because they all have night sounds. And they have very tiny ears and make this sound very big.detection works.
Melody
Animals Some animals can avoid predators by detecting sounds. Most animals can’t hear these sounds, which are able to avoid pre-detectures. Most animals, called near-field sounds, but most animals are unable to detect some insects, like caterpillars, have tiny hairs on their skin that help them sense these kinds of sounds. And this is vibrations. For example, when a near-field of wasp flies near a caterpillar, the sound detect sections. And some ginger roses, insects, have a really tiny hair in your skin and from the wasp's wings creates small movements in your skin will the air that make the caterpillar's hairs move. This helps the caterpillar notice the wasp and drop off the branch to avoid the pre-detectures.stay safe.
Jimmy
Any more uses, In the lecture, the professor explained that some animals, like caterpillars, have special things to adaptations that help them be good detect nearby sounds. For example, caterpillars have tiny hairs on their skin that can sense vibrations in the natural. Very animal air. When a wasp approaches, the caterpillar can use link tree, nest, dress, feel the cob, pit. They vibrations from the wasp's wings. This helps the caterpillar to realize there's a threat nearby, and it can help them quickly drop off the branch to find near-fail sounds, the techniques. They can find some animal in their near. If they find the bad animal, they can find a good place.avoid being eaten. This example shows how near-field sound detection helps animals stay safe from predators.
Jarvis
In a the lecture, the professor gave the talked about caterpillars as an example of the caterpillars and the predators to eat them. And the caterpillars are the insects that can have the ability detection of the near-field sound detection. And this ability helped them to find and prepare predators in right time. And that's to find the sounds of variables that are made by the originates predators and help them to take actions to escape or protect themselves. And even some animals Caterpillars have the ability to find sense nearby predators, like wasps, using tiny hairs on their skin. When a wasp flies near, the sounds, can even use sound of its wings creates vibrations in the air, which move the caterpillar's hairs. This helps the caterpillar detect the wasp in time to catch escape by dropping off the prey. The professor gives the example of animals that are harmed branch. This ability to detect near-field sounds is crucial for the prey their survival, as it allows them to react quickly and the prey's mempou. If they make the variables, it'd be easy to find.avoid being eaten.
Bianca
Near-fail Near-field sound detection is an ability for that some animals have to detect sense vibrations or near-fail near-field sounds produced by predators and predators, allowing them to take actions action to protect themselves. According to In the lecture, in the biology class, the professor used the categories caterpillars as an example. Caterpillars are growing When a caterpillar is crawling along on the trees and some a branch in a tree, it may be threatened by a dangerous insects want to eat them. And insect, like a wasp. Fortunately, caterpillars have some tiny hair hairs on their head and they bodies that can sense detect vibrations around themselves. And when in the air. When the wasp flies nearby, the movement of its wings creates vibrations that cause these dangerous insects fly, this tiny hair can warm them, then realize something is hairs to move. This alerts the caterpillar to the approaching them and they can danger. Once it senses the wasp, the caterpillar quickly fly away or hide themselves and drops off the predator can't catch them and they can keep safe.branch to escape, ensuring it stays safe from the predator.
Dorcas
Some news quote by Rebriation is around animals can use sound to avoid predators. For example, caterpillars have a special ability to detect vibrations in the air. And most animals are able When a wasp flies nearby, it creates vibrations with its wings. The caterpillar has tiny hairs on its body that can sense these vibrations. When the caterpillar feels the vibrations, it knows the wasp is close and can drop off the branch to detect this kind of sound. But some animals have escape. This ability to declass it and it can allow them to sense helps the pressure and escape from catching them. For example, a catapilla. A catapilla can have ability to detect this kind of sound and will swipe fly to them. They'll be able to be able to see their wings and they will create vibrations around the air. And catapilla has a tiny hair to detect this kind of vibration. So they will move before the swabs come to catch them. So the catapilla will be seen.caterpillar avoid being caught.
Emily
The white hair sing. The animal can know tiny hairs on the caterpillar's skin help it detect near-field sounds of all from potential predators. For example, when a wasp flies toward the pro-deticters. The speaker gives an example of tree, its wings create vibrations in the capitals, which has a tiny hair. Its predators was on the trees, and they made some sounds or small movements. And then the capitals were listened across the air, so they can do sounds. Activities can air. These vibrations make the walls fly away, and then caterpillar's tiny hairs move, allowing the capitals will keep caterpillar to sense the wasp's presence. Once it realizes the wasp is nearby, the caterpillar drops off the branch to escape, which helps it stay safe.
Rachel
Near-fuel Near-field sound detection is an ability that some certain animals can have to detect vibrations and the new field sounds, which produce the bi-potential sounds produced by potential predators, so they can allowing them to take actions action to protect themselves. The professor in the lesson take gave an example of capters and the webs and the webs. caterpillars. When capters stay caterpillars are on the trees, some webs will come in and they can detect and because of some sense danger when a wasp approaches. They have tiny hairs on their skin, on capters skin, they skin that can detect the vibrations and the movements made by the west, so they can fly wasp's wings. When the caterpillar senses that the wasp is nearby, it drops off the branch and falls to a lower branch or to the ground and stay on ground. This way, the ground or stay on their lower place and then they will be saved and they're not attacked wasp is likely to fly right by a webs.without catching the caterpillar, keeping it safe from being attacked.
Trinity
Some animals have their a special physical ability to detect sounds that help them avoid dangers. danger. The professor takes uses an insect to be insect, specifically a caterpillar, as an example. The candy ball is an insect which Caterpillars can avoid the predators through the sounds. They can receive web-rissions sense vibrations in the surrounding area air around them, which helps them detect approaching predators like wasps. They have tiny hairs on their skin that pick up these vibrations. When a wasp flies nearby, the caterpillar can feel the movement in the air and quickly drop off the other animals can detect these kinds of sounds. They can move themselves very quickly because they can discover the predators.branch to escape, which helps keep it safe.
Hanbo
Exemplate how the The example from the proficers lectures professor's lecture talks about how some caterpillars can detect sounds made by predators, like wasps. When a wasp flies near, it creates vibrations in electricity is the conceit of air. The caterpillar has tiny hairs on its skin that can sense these vibrations. So, when it feels the wasp coming, it drops off the branch to avoid being caught. This shows how near-field and surround sound detection helps the damncaterpillar stay safe.
Tracy
In the article, it explains the that near-field sound detections. It's a detection is an ability to allow that allows some animals to detect the vibrations to avoid some potential by detect the vibrations by some from potential predators and protecting protect themselves. In the lectures, lecture, Professor Gibe gives the example the cavicolor. of caterpillars. The cavicolor has some danger inside and some animals may not know. But cavicolor caterpillar has tiny hair hairs on skins. So some small movements, its skin that can sense danger. When a predator, like a wasp, comes close, the vibrations from the wasp's wings make these tiny hair will move hairs move. This movement alerts the caterpillar that a predator is near. As a result, the caterpillar can drop off the branch it's on to avoid being caught. This way, it can escape the predator and the cavicolor will know. Some potential predators is near them. And then they will avoid and allow some predator while they are watching.stay safe.
Nina
The concept of new field near-field sound detection is means that certain animals' abilities and can use this animals have the ability to use sound to avoid the kind of predators. And the The lecture illustrates this concept by giving an example of their insect caterpillars when caterpillars. When a caterpillar lay is on the tree and moind a tree, just minding its own business business, a wasp might fly toward it and pose a vast flight right threat. Fortunately, caterpillars have tiny hairs on their skin that help them sense these vibrations in the air caused by the wasp's wings. When the wasp gets close, the caterpillar's hairs detect the movement, allowing it to them and want to eat caterpillars. However, realize that danger is approaching. As a result, the caterpillar have the tiny ears and seek out to the surrounding ears. So when the waves fly to them, it will create a vibration or movement. And it's like those caterpillars are tiny here and move and help them to realize the danger is coming and they will choose to can quickly drop off the lower land or branch to safety, avoiding being eaten by the ground. In that case, wasp. So, near-field sound detection refers to the caterpillar will be safe. So the detection is means that certain abilities of the certain animals to detect nearby sounds and avoid the predators.
Bill
The near-vehersung Near-field sound detection is an important ability that detation is a biological expand. First, in the animals, they can't know the some animals have to sense danger. For example, caterpillars can feel vibrations in the arms, so they can't wiser prendums in some dangerous situation. For example, if some animals want air caused by predators, like wasps. When a wasp flies near, the caterpillar's tiny hairs detect these vibrations, which helps it know that a threat is close. Because of this ability, the caterpillar can quickly drop off the branch to eat some small animals, they can't use it a little vibration to run away escape from the wasp and wiser danger. Second, the physical fringes can't allow to sense some dangerous. Not all animals can't, so can't acquire the vibrations in some spacious environment. So, and so.stay safe.
Stanley
In the natural nature, most of animals can't hear some small movements movements, but there are some special animals can. For example, caterpillars have some have some special or years tiny hairs on their bodies that help them detect vibrations in the air. When a wasp flies nearby, the movement of its wings creates vibrations that the caterpillar can sense. This ability helps the caterpillar realize that a predator is close, so they came and they said the sound, decision because they have special physical or feel track, feel track, they can realize the small movement and it can help them drop off the branch and escape to escape, to keep them safe.safety.
Harry
To describe explain near-field sound detection, let's look at the near-view sound texture, we will talk about the category. The category avoid per dead-terse. They detect verb regions or other sounds to avoid them. The category allows them to send a purge and it example of caterpillars. These caterpillars can sense nearby sounds, which helps them avoid predators like wasps. When a wasp flies close, it creates vibrations in the air. The caterpillar has tiny hairs on its body that can detect these vibrations. When it senses the wasp, it quickly drops off the branch to escape danger. This ability to detect sounds helps the caterpillar protect themselves. And toad-other and the category sounds ask other friends to protect themselves.itself from being eaten.
Sky
But In the lecture, the professor explained how caterpillars use near-field sound detection to avoid predators like wasps. When a wasp flies near, its wings create vibrations in the end, air. The caterpillar has tiny hairs on its skin that can sense these vibrations. This helps the caterpillar know when you find dangerous, you a wasp is close, so it can find more climate on drop off the trees. You can help them to hunt for the trees without any dangers.branch and escape, staying safe from danger.
YukiYu
The near-field Near-field sound detection is that the sound bill produced that when some animals can sense vibrations in the surrounding air and some animals special physical features will lead that are caused by sounds. These vibrations help them to know the when predators are nearby so they can protect themselves. For example, in the lecture, the professor talked about caterpillars. When a wasp flies close to them so a caterpillar, the caterpillar can feel the tiny vibrations caused by the wasp's wings through special hairs on its skin. This helps the caterpillar realize that a predator is near, and it can protect themselves far quickly drop off the branch to avoid being caught. This way, the caterpillar stays safe from the predators and the lecture make an example that's a caterpillar and with the predator are close to the caterpillars they will know that the tiny air move they remind that the predators are close to them so that they will drop on the floor and they will get protect lucky we are far from thewasp.
Angela
Seeing the In nature, some animals have ability, no one has the ability of near-field sound detection. They can sense, they can detection, which helps them sense surrounding ear, that sound detection. Some predators fly to eat some animals and some animals have very tiny ears in the ear. They can sense small movements, that sense of predators. It's very essential for them to protect themselves. Some their surroundings. For example, when a predator, like a wasp, approaches, these animals can detect the vibrations created by the predator's wings. They have tiny hairs on their bodies that pick up these small movements in the air. This ability is essential for their survival, as it allows them to react quickly and escape from danger. When they sense a vibration produced by potential predators. And the prey predator nearby, they can move out and run out of danger and the prey can be away or drop from their branch to stay safe.
JerryTu
The listening material I talked about the concept of near-fueled near-field sound detection. It's a an ability that the insect helps insects avoid predators by allowing them detecting to detect vibrations and near-field sound. sounds. In the listening material, lecture, the professor provides uses the caterpillar as an example. Imagine a caterpillar crawling on the a branch and the west, and the west, coming when a wasp comes near. The caterpillar is has tiny here, which is hairs that stick out in into the ear, air, and these hairs can feel the vibration that vibrations produced by the webs. It can feel wasp's wings. When the presence of caterpillar senses the webs and wasp, it will drop from drops off the branch to the ground so they can be to stay safe. So that can illustrate the near-fueled This example illustrates how near-field sound detection.detection works.
Isabella
Professor make the The professor gave an example of cat pillars. They caterpillars to explain near-field sound detection. Caterpillars have the ability to make here feel sound, so they detect near-field sounds, which helps them protect themselves from predators. When a dangerous insect, like a wasp, approaches, the caterpillar can take action to protect themselves. When they meet dangerous, they will make sense the vibrations made by the wasp's wings through tiny hairs on its skin. These tiny hairs pick up the sounds that many other animals don't can't listen. And they have might not hear. When the tiny hair on their skin. So when they make caterpillar senses the sound, they will allow their tiny hair wasp, it quickly drops off the branch to hear avoid being caught. This ability to detect near-field sounds is crucial for the sound and the fur to a ground that can help them be self. So this near-field sound can just only hear by the cat pillar and they will avoid predators.caterpillar's survival.
Betty
For In the reading, we can know learn that there are some animals that can't view the see their predators to but can use the near-field suns because sound detection. This means they can produce some february Asians sense vibrations in the air caused by sounds made by potential threats. For example, caterpillars have tiny hairs on their bodies that can pick up these vibrations. When a wasp flies nearby, the caterpillar can feel the vibrations and that some most animals unable quickly drop off the branch to act as they are predators. They are partatient. And as recently we can know that some suns is really tiny, so it can't can't hear.avoid being caught. This ability helps them stay safe from predators.
Cordelia
Many animals can't detect near-field sounds, but some, like the near-field sound, but some animals caterpillar, can. The caterpillar lives in a tree, and it has tiny hairs on its skin. These hairs can detect some sense vibrations in the surrounding areas like air. When a wasp flies nearby, the caterpillar. The caterpillar is living in movement of its wings creates vibrations that make the tree and they have some walls. The caterpillar is a caterpillar, caterpillar's hairs move. This helps the caterpillar will in trouble, but know that a predator is close. If it senses danger, the caterpillar have a hair in their skin. This tiny hair can detect the surrounding areas. If the tiny hair was movement, they will know the walls to be eaten, so they can quickly drop down from the branch to a lower bridge.avoid being eaten, staying safe from the wasp.