Life Processes in Animals Class 7 Notes Science Chapter 9 - #NCSOLVE 📚

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Class 7 Science Chapter 9 Life Processes in Animals Notes

Class 7 Life Processes in Animals Notes

Class 7 Science Chapter 9 Notes – Life Processes in Animals Notes Class 7

→ Mechanical digestion: The process of initial breakdown of food into fine pieces is called mechanical digestion.

→ Digestion: The breakdown of complex components of food (which cannot be utilised by our body) into simpler and absorbable substances is called digestion.

→ Saliva: It contains digestive juice that helps break down the starch into sugar in the mouth. Oesophagus: It is also known as a food pipe that runs from the mouth to the stomach.

→ Stomach: This is a muscular hollow organ. It takes in food from the food pipe, mixes it and starts breaking it down.

→ Small intestine: The partially digested food moves into the small intestine, which is 6 metres long.

→ Liver: This is a reddish-brown gland situated in the upper part of the abdomen on the right side. It is the largest gland in the body. It secretes bile juice (mildly basic), which plays an important role in the digestion of fats.

→ Pancreas: This secretes pancreatic juice that contains en2ymes which help in the digestion of carbohydrates, fats and proteins.

→ Absorption: The passage of digested food into the blood vessels is called absorption of food. This process takes place in the small intestine in the case of human beings.

→ Inner lining of intestine: The inner walls of the small intestine have thousands of finger¬like projections. These provide energy, support growth, and repair and help the body to function properly.

→ Large intestine: It helps in the absorption of water, and some salts from undigested food, thus making waste semi-solid. This semi-solid waste is called stool.

→ Rectum: The stool is then stored in the lower part of the large intestine, called the rectum. Egestion: The removal of undigested and unabsorbed food material, called faecal matter, through the anus from time to time is called egestion.

→ Rumination: The partially digested food returns to the mouth and the animal chews it. This process is called rumination.

→ Ruminant: The animals that have rumen and carry out rumination are known as ruminants.

→ Gizzard: A chamber in birds where food is broken down by the contraction and relaxation of the walls is known as gizzard.

→ Respiration: The process by which digested food is oxidised to release energy is called respiration.

→ Breathing: It is simply an exchange of gases in which an organism takes in oxygen from the environment and gives out carbon dioxide. It is a physical or mechanical process involving inhalation or exhalation.

→ Respiratory system: The specific pathway for breathing and respiration is called the respiratory system.

→ Nostrils: The human respiratory system begins with a pair of nasal openings called nostrils through which they inhale and exhale air.

→ Nasal passage: The inhaled air passes into a pair of small passages called nasal passages.

→ Windpipe: From the nasal passages, the air reaches our lungs through the windpipe. This forms two branches, which enter the two lungs.

→ Lungs: Lungs are spongy, elastic bags consisting of small balloon-like sacs called alveoli. These are

→ Exchange of gases between alveoli and blood: Blood carries carbon dioxide from the body to the alveoli, where it is released into the air. At the same time, oxygen from the alveoli passes into the blood and is transported to all parts of the body.

→ Circulatory system: It includes the heart, blood, and blood vessels. The heart pumps blood through blood vessels, ensuring the transport of nutrients, oxygen and other substances to all parts of the body while waste products are carried away.

→ Breathing in other animals: Different animals have different breathing mechanisms adapted to suit their habitats.

• Cow, goats, lizards, birds, elephants, and snakes breathe through their lungs.
• Aquatic animals breathe through gills.
• Amphibians like frogs use different body parts for breathing at various stages of their life (tadpole – gills; adult frog – lungs).
• Earthworms use moist skin for the exchange of oxygen and carbon dioxide.

→ Digestion: The process in which complex substances are broken down into smaller, simpler substances.

→ Absorption: The uptake of simple substances produced during digestion.

→ Liver: The largest gland in the body. It is reddish brown in colour and located in the upper part of the abdomen on the right side.

→ Bile: A juice secreted by the liver that helps in the digestion of fats.

→ Saliva: A liquid secreted by salivary glands. It breaks down starch into sugars.

→ Ruminants: Herbivorous animals that eat grass and have a special digestive system to breakdown cellulose, including the process of rumination.

→ Respiration: The process of breaking down food to release energy. It can occur with oxygen (aerobic) or without oxygen (anaerobic).

→ Breathing: The physical process of taking in oxygen (inhalation) and releasing carbon dioxide (exhalation).

→ Trachea: A tube in the respiratory system that carries air to and from the lungs; in insects, tracheae are air tubes connected to spiracles for breathing.

→ Alveoli: Tiny air sacs in the lungs, where the exchange of oxygen and carbon dioxide takes place.

→ Ribs: Bony framework in the chest that protects the lungs and helps in breathing.

→ Gills: Breathing organs in aquatic animals like fish that allow exchange of gases in water.

→ Inhalation: The process of breathing oxygen-rich air in.

→ Exhalation: The process of breathing carbon dioxide air out.

Every living animal needs energy to grow, move and carry out daily activities. This energy comes from food and is released inside the body through special processes. Two Emportant life processes that help animals to obtain and use energy are nutrition and respiration. In nutrition, animais take in food to get useful substances called nutrients. In respiration, the body breaks down these nutrients to release energy. Both these processes are essential for survival.

Nutrition in Animals

Animals depend on food to get the energy and nutrients they need to survive. However, the food obtain by an organism is made up of complex substances like carbohydrates, proteins and fats, which the body cannot use directly. These complex substances must first be broken down into simpler forms through a process called digestion. Once broken down, the simpler substances can be absorbed and used by the cells for energy, growth and repair.

Different Ways of Taking Food

Animals use various methods to take in food, depending on their body structure and feeding habits. Bees and sunbirds suck nectar from flowers. Babies of humans and many animals feed on their mother’s milk. Snakes, such as pythons swallow their whole food. Some aquatic animals take in water and filtre tiny food particles from it. These examples show the variety of feeding methodsin animals.

Digestion in Human Beings

In humans the process of digestion is completed in a tube like structure called alimentary canal. Food is broken down into simpler forms as it moves through this canal. Along the way, digestive juices help to break the food into smaller pieces. The journey of food through the different parts of the alimentary canal involves several stages. Once the food is broken down, the simpler nutrients are absorbed and transported to various parts of the body for use.

The alimentary canal is made up of several parts that assist in digestion. It begins with the buccal cavity, followed by the oesophagus, stomach, small intestine and large intestine, ending at the rectum and anus. Digestive glands such as the salivary glands, pancreas and liver secrete juices that help to breakdown the food as it moves through the canal. Each part of the canal serves a specific function in digestion and absorption. Which will be explained below.

•  Mouth
The process of digestion begins in the mouth, where the teeth breakdown food into smaller pieces through crushing and chewing. This initial breakdown is called mechanical digestion. As food enters the mouth, the salivary glands secrete a watery liquid called saliva, which contains digestive enzymes.

These enzymes help in the partial digestion of food by breaking down starch into sugars. Food is partially digested in the mouth before moving further along the digestive system.

•  The Food pipe or Oesophagus
It is a tube-like structure, which connects the mouth to the stomach and runs along the neck and chest. It carries slightly digested food from the mouth to the stomach. Food is pushed downward by a wave-like movement of the wall of food pipe as a result of alternate contraction and relaxation. This movement takes place throughout the alimentary canal and pushes the food downwards.

•  Stomach
It is the widest part of the alimentary canal. In the stomach, the walls contract and relax to churn the food and mix it with secretions from the inner lining. These secretions include digestive juice, acid and mucus.

The digestive juice helps to breakdown proteins into simpler forms. The acid not only aids in digestion, but also kills harmful bacteria, while mucus protects the stomach lining from the acid. Food is partially digested in the stomach and turned into a semi-liquid mass, preparing it for the next stage of digestion.

•  Small Intestine
It is a long, coiled tube, where complete digestion and absorption of food take place. It receives digestive secretions from three sources: its own inner lining, the liver and the pancreas.

The liver produces bile, a mildly basic fluid that neutralises stomach acid and breaks down fats into small droplets. The pancreas secretes pancreatic juice, which also neutralises acid and helps breakdown carbohydrates, proteins and fats. The digestive juice from the small intestine further simplifies these nutrients.

The digested food is then absorbed through the thin inner lining of the small intestine, which has thousands of finger-like projections. These projections increase the surface area, allowing nutrients to pass into the blood. The absorbed nutrients are transported by the blood to different parts of the body, providing energy, aiding in growth and repair and support the body functions.

• Large Intestine
After most nutrients are digested and absorbed in the small intestine, the remaining material passes into the large intestine, which measures about 1.5 metres in length. Its main function is to absorb water and some salts from the undigested food, turning it into a semi-solid waste called stool.

The stool is stored in the rectum (the lower part of the large intestine) until it is removed from the body through the anus. This process is called egestion. Including fibre-rich foods like fruits, vegetables and whole grains in the diet helps the large intestine work smoothly and supports healthy removal of waste.

Digestion in Grass-Eating Animals (Ruminants)

Grass-eating animals like cows and buffaloes first partially chew the grass and swallow it into their stomach.

In the stomach, the food undergoes partial digestion. The partially digested food is then brought back to the mouth to be chewed again. This process is known as rumination and animals that do this are called ruminants. After through chewing, the food moves down the alimentary canal for further digestion.

Digestion in Birds

Birds do not have teeth, but they have a special chamber called the gizzard. The food in the gizzard is broken down by the contraction and relaxation of the gizzard walls. Sometimes, grit (small stones) that birds swallow also helps in grinding the food.

This shows, how animals have different adaptations in the structure and function of their alimentary canals, allowing them to digest various types of food in unique ways.

Respiration in Humans
The process of breakdown of food in the cells of living beings with the release of energy is called cellular respiration. During respiration, an individual breathe in oxygen rich air and breathe out air rich in carbon dioxide. The air rich in oxygen is transported to all parts of the body and ultimately to each cell. This oxygen is utilised by the cells for respiration. The process can be depicted with the help of following equation.
C₆H₁₂O₆ + 6O₂ → 6CO₂ + 6C02 + 6H₂O + Energy

This process is crucial because it provides energy to every cell, enables growth, movement and various functions which are necessary for survival. In humans, the respiratory system is highly developed, ensuring a continuous supply of oxygen and the removal of carbon dioxide, which supports the body’s energy needs and overall functioning.

Human Respiratory System
The respiratory system in humans is made up of various parts that work together to facilitate breathing and gaseous exchange.

• Nostrils and Nasal Passages
Breathing begins with a pair of nasal openings called nostrils. Air enters and exits the body through these nostrils. Just beyond them are the nasal passages, which contain tiny hairs and mucus. These helps to trap dust and dirt from the air, making it cleaner before it reaches the lungs. This is why breathing through the nose is healthier than breathing through the mouth.

•  Windpipe (Trachea)
From the nasal passages, the cleaned air travels down a tube called the windpipe or trachea. This is the main airway that connects the throat to the lungs.

•  Bronchi and Lungs
The windpipe divides into two branches known as bronchi, with each branch leading to one of the lungs. Inside the lungs, the bronchi further split into smaller tubes and finally end in tiny balloon-like structures called alveoli.

•  Alveoli
The alveoli are the main sites for the exchange of gases.
Oxygen from the inhaled air passes into the blood and carbon dioxide from the blood is transferred into the alveoli to be exhaled.

•  Rib Cage
The lungs, being soft and delicate, are well protected by the rib cage, which also assists in the movement involved in breathing.

Harmful Effects of Smoking
Smoking is very harmful to health. It damages the lungs and increases the risk of diseases like lung cancer and breathing problems. It can also cause constant coughing and infections. Smoking doesn’t just harm the smoker it also pollutes the air with toxic chemicals. People nearby, especially children, pregnant women and the elderly, can suffer from passive smoking. Avoiding smoking protects your health and the health of others.

Mechanism of Breathing

Breathing is a physical process that consists of two steps: inhalation and exhalation.

Inhalation, is the process of drawing oxygen-rich air into the lungs. During this step, the chest expands as the ribs move upward and outward. At the same time, the diaphragm-a dome-shaped muscle below the lungs-moves downward.

This increases the space inside the chest cavity, creating a vacuum that pulls air into the lungs.

Exhalation, occurs when air is pushed out of the lungs. The ribs move downward and inward and the diaphragm moves upward, reducing the space in the chest cavity. This pushes the air, now rich in carbon dioxide, out of the lungs. This exchange of gases helps supply oxygen to body cells and removes carbon

Gaseous Exchange

Once the air reaches the lungs, gas exchange takes place in the alveoli. In which the gas exchange occurs as carbon dioxide from the blood enters the alveoli and is exhaled from the body. At the same time, oxygen from the alveoli diffuses into the blood. The oxygen-rich blood is then carried to all parts of the body, providing cells with the oxygen required for energy production. This process ensures the delivery of oxygen to the body and the removal of carbon dioxide, a waste product.

The human body has a unique system known as the circulatory system, which is responsible for transporting nutrients, oxygen and other essential substances. This system includes the heart, blood and blood vessels. The heart acts as a pump, pushing blood through the vessels to supply the entire body, while also carrying away waste products for disposal.

Breathing in Other Animals

Animals have different ways of breathing based on their environment and body structure. Many land animals like birds, elephants, lions, cows, goats, lizards and snakes breathe through lungs, although the structure of their lungs may vary.

•  Aquatic Animals
Most aquatic animals, such as fish, use gills for breathing. Gills are filled with blood vessels and allow the exchange of oxygen and carbon dioxide from the water.

•   Amphibians
Amphibians like frogs live both on land and in water. Tadpoles breathe through gills, while adult frogs use lungs on land and their moist skin for breathing in water.

•  Earthworm
Earthworms breathe through their moist skin. Oxygen and carbon dioxide passes directly through the skin into the bloodstream.

Class 7 Science Chapter 9 Notes Life Processes in Animals

→ Life processes such as nutrition, circulation, respiration, excretion, and reproduction are essential for the survival of living beings. These processes are collectively called life processes.

→ The human digestive system consists of an alimentary canal which includes the mouth, oesophagus, stomach, small intestine, large intestine, and anus, and its associated parts, the liver and the pancreas.

→ The digested food is primarily absorbed through the walls of the small intestine.

→ The nutrients absorbed are distributed through the blood to different parts of the body where they are used for performing various functions.

→ The large intestine absorbs most of the remaining water and some salts from the undigested food.

→ Grass-eating animals such as cows and goats are called ruminants. They chew the food partially and swallow it. Later, the partially digested food is returned to the mouth, and the animal chews it thoroughly.

→ Breathing involves the movement of air into the lungs (inhalation) and out of the lungs (exhalation).

→ The exchange of oxygen and carbon dioxide occurs in the alveoli of the lungs.

→ Respiration uses oxygen from inhaled air to break down glucose into carbon dioxide and water.

→ The process by which nutrients are converted into usable energy is called respiration.

→ The circulatory system transports nutrients and oxygen to all parts of the body. It includes the heart, which pumps blood through blood vessels, delivering oxygen and nutrients while also removing waste from the body.

→ Breathing is a physical process and respiration is a chemical process.

→ Different animals have different breathing mechanisms adapted to suit their habitats.

In the Grade 6 Science textbook Curiosity, chapter ‘Living Creatures: Exploring their Characteristics’, we learnt about processes essential for survival of living beings like nutrition, respiration, excretion, and reproduction. These are collectively called life processes. In this chapter, we will learn about life processes such as nutrition and respiration in detail.

Observe your surroundings and notice what animals eat. Animals eat different types of food. Bees and sunbirds suck the nectar of flowers, while infants of humans and many other animals feed on their mother’s milk. Snakes, like python, swallow the animals they prey upon. Some aquatic animals filter tiny food particles floating nearby and feed upon them.

Fig. Human digestive system

Animals, including humans, obtain energy from food, which enables them to carry out various life processes. Animals consume food that contains complex components, such as carbohydrate, protein, and fat. These complex food components have to be broken down into simpler forms before the body can use them. But how does this process happen?

Breaking down of complex food components into simpler forms occurs in a long tube called the alimentary canal. This process starts in the mouth and ends at the anus (Figure). As food moves through this canal, digestive juices secreted at different parts break it down into simpler forms. This simpler form of food is absorbed by different parts of our alimentary canal and transported to various parts of our body to carry out various functions.

Nutrition in Animals

How do the complex food components get broken down into simpler forms and used by the body in various animals? Is this process the same in all animals or does it vary? Let us first try to understand this process in humans.

Digestion in human beings
Let us trace the journey of food inside our body as it passes through different parts of the alimentary canal.

Beginning with the mouth cavity
The journey of the food you eat begins when it enters your mouth. Your teeth break down food you eat into smaller pieces by the processes of crushing and chewing. This process of initial breakdown of food into fine pieces is called mechanical digestion. Think about your favourite food. Does your mouth feel watery?

This happens because of more saliva that gets released when you recall your favourite food.
What do you think is the role of saliva in your mouth? What do you feel when you eat other types of food, such as chapati?

Let us find out.
Take a small piece of chapati or a bite-sized portion of boiled rice and chew it properly for 30-60 seconds. At first, the chapati or rice has its usual taste, but as you continue chewing, do you notice a change in taste? The food begins to taste sweet! Have you ever wondered why this happens?

Chapati or rice contains starch, which is a type of carbohydrate. Our saliva contains a digestive juice that helps break down starch into sugar. This explains why starchy food, like chapati, tastes sweet when you chew it for a long time. Saliva helps to break down components of food into simpler ones.

Science And Society
A healthy mouth requires good oral hygiene. We should brush our teeth and clean our tongue twice a day, and rinse our mouth with water after each meal to prevent tooth decay and bad smell in the mouth. Find out the ways our elders were maintaing oral hygiene.

Let us investigate

• Take two test tubes and label them as ‘A’ and ‘B’
• Take one teaspoonful of boiled rice in test tube A, and take a teaspoonful of boiled rice after chewing it for 30-60 seconds in test tube B.
• Add 3-4 mL of water in both the test tubes.
• Note the initial colour of the rice-water mixture in Table.
• Add 3-4 drops of iodine solution into each test tube with the help of a dropper. Mix the content of each test tube separately and observe.

Did you observe that the colour of boiled rice turned blue-black in test tube A, while in test tube B, chewed boiled rice either did not change colour or turned only a very light blue-black colour? What causes the change of colour in test tube A? In Grade 6, we learned that iodine gives a blue-black colour when it reacts with starch. In test tube A, the appearance of the blue-black colour indicates the presence of starch.

In test tube B, which contains chewed boiled rice, if there is no change in colour, it indicates that the starch is no longer present; if there is only a slight change in colour, it indicates that starch is present only in very small amount. It has been broken down into simple sugars by the action of saliva. If the colour still appears in test tube B, what changes would you make in the activity to explore it further? Would the colour change if chewing time is increased? Try to find out by repeating the activity.

Now, we know that saliva secretion in the mouth helps break down starch into sugars. This process of breaking complex food components into simpler forms in the body is called digestion. Food is partially digested in the mouth. Let us learn how this partially digested food gets further digested through the alimentary canal.
Food pipe (Oesophagus): A passage from the mouth to the stomach

Fig. Movement of food in the food pipe

The walls of the food pipe gently contract and relax in a wave-like motion to push the food down into the stomach. This movement takes place throughout the alimentary canal and pushes the food forward.

Stomach

In the stomach, the walls contract and relax to churn the food. The churned food is then mixed with a secretion from the inner lining of the stomach. The secretion from stomach contains digestive juice, acid, and mucus.

The digestive juice of the stomach breaks down proteins present in the food into simpler components. The acid not only helps break down proteins but also kills many harmful bacteria. The mucus protects the stomach lining from the acid, preventing damage. In the stomach, the food is partially digested and transformed into a semi-liquid mass, preparing it for the next stage of digestion.

Fascinating Facts
How did scientists learn about digestion in the human body? The discovery of how the stomach works happened by chance. In 1822, a man named Alexis St. Martin was accidentally shot in the stomach. He was treated by a doctor, William Beaumont. However, his wound never fully healed, leaving a small permanent hole.

This opening allowed Dr. Beaumont to observe digestion in the stomach as it happened. He conducted experiments on how diff erent foods were broken down and studied how emotions affect digestion.

Alexis St. Martin’s shotgun wound

Small Intestine

After its journey through the stomach, the partially digested food moves into the small intestine. Look at Fig. 9.4. It is a sketch of a stretched-out alimentary canal. Guess how long it is. You will be surprised that although it is called small intestine, it is almost 6 metres long—almost twice the height of your classroom! You will be surprised to know that the small intestine is the longest part of the alimentary canal.

The small intestine receives digestive secretions from three sources—the inner lining of the small intestine itself, and two more structures associated with the alimentary canal—the liver and the pancreas (Fig. 9.4). The liver secretes bile, which is mildly basic in nature. Recall the neutralisation reaction in chapter ‘Exploring Substances: Acidic, Basic, and Neutral’. Bile neutralises acids present in the food moving down from the stomach and breaks down fats into tiny droplets, making its digestion easier.

Fig. Alimentary canal if it is stretched out

The pancreas secretes pancreatic juice, which is also basic in nature and helps neutralise acids present in the food. Additionally, pancreatic juice also breaks down carbohydrates, proteins, and fats. The digestive juice secreted by the wall of the small intestine further breaks down fats, proteins, and partially digested carbohydrates into simpler forms.

Fig. Inner lining of the small intestine

The digested nutrients pass on from the small intestine into the blood present in blood vessels found in the walls of the small intestine. This process is called absorption of nutrients. How are these nutrients absorbed from the small intestine? The inner lining of the small intestine is thin and has thousands of finger-like projections (Figure) that increase the surface area for efficient nutrient absorption. These finger-like projections allow the digested nutrients to pass into the blood, which carries them to different parts of the body. These nutrients provide energy, support growth and repair, and help the body function properly.

Science And Society
Celiac disease is a condition in which the body reacts to gluten, a protein found in wheat, barley, and rye. This reaction damages the inner lining of the small intestine, where nutrients are absorbed. As a result, the intestine cannot function properly. The only way to manage celiac disease is to avoid foods that contain gluten. Millets (like jowar, bajra, and ragi) are good alternatives because they are naturally gluten-free.

Large intestine

After most of the nutrients are digested and absorbed in the small intestine, what happens to the undigested food? It moves into the large intestine. The large intestine is about 1.5 metres in length. It is shorter than the small intestine. Then why is it called the large intestine? The reason is that it is wider than the small intestine. The large intestine absorbs water and some salts from the undigested food, thus making the waste semi-solid. This semi-solid waste is called stool. The stool is then stored in the lower part of the large intestine, called the rectum, until the body is ready to get rid of it. Eating fibre-rich foods like fruits, vegetables, and whole grains helps the large intestine function properly by making the stool easier to pass. Finally, it is expelled through the anus—a process known as egestion. This is how your body removes the waste it does not need, keeping you healthy!
Isn’t it fascinating how the digestive system works, absorbing nutrients from food and eliminating waste?

Fascinating Facts
The large intestine contains various small living organisms, such as bacteria, that help in digestion. They help in keeping our digestive system healthy. They break down undigested food, especially fibre, and produce essential nutrients. Fibre-rich food, and especially ‘fermented foods’ (like curd, buttermilk, shrikhand, kanji, pickles, gundruk, and poita bhat) are good for \ a healthy digestive system and overall well-being.

Science And Society
The importance of digestion in maintaining good health has been recognised for centuries. The Char aka Samhita, an ancient Ayurvedic text, highlights the role of easily digestible foods and the judicious use of spices like ginger, black pepper, and cumin to enhance digestion. Advances in science in the area of nutrition also emphasise eating meals at proper timings, practising mindful eating, and avoiding overeating as key factors in maintaining digestive health.

Do all animals digest food the same way as humans do?
Grass-eating animals, such as cows (Figure) and buffaloes, partially chew the grass and swallow it into their stomachs. In the stomach, partial digestion of the food takes place. The partially digested food is brought back to the mouth for gradual chewing. This process is called rumination, and these animals are called ruminants. A cow spends about 8 hours a day just chewing the food! The thoroughly chewed food again passes down the alimentary canal for further digestion.

Grass-eating animals, such as cows (Fig. 9.6) and buff aloes, partially chew the grass and swallow it into their stomachs. In the stomach, partial digestion of the food takes place. The partially digested food is brought back to the mouth for gradual chewing. This process is called rumination, and these animals are called ruminants.

A cow spends about 8 hours a day just chewing the food! The thoroughly chewed food again passes down the alimentary canal for further digestion. Fig. 9.6: Digestive system of a ruminant

Fig. Digestive system in birds

Birds do not have teeth, but they have a chamber called a gizzard (Figure). Food is broken down by the contraction and relaxation of the walls of the gizzard, often with the help of grit (small stones) that the birds swallow.

Fig. Digestive system in birds

This shows that animals exhibit variations in the structure and function of the alimentary canal to adapt to different ways of digesting different kinds of food. We have learnt that the nutrients from digested food are carried to different parts of the body. Some of the nutrients help build and repair the body, while others, like sugar, are broken down inside the body to release energy. The process by which nutrients are converted into usable energy is called respiration.
Let us now explore how this process occurs in animals.

Respiration in Animals
We learnt in Grade 6 chapter ‘Living Creatures: Exploring their Characteristics’, that all living beings respire. Is the process of respiration the same in all animals? Let us first understand the process of respiration in humans.

Respiration in humans
You know that we breathe in (inhale) and breathe out (exhale) air continuously to obtain oxygen and release carbon dioxide. How is this oxygen used in the body? Are breathing and respiration different? Let us find out.

How do we breathe?
The process of inhaling and exhaling air is called breathing. It is difficult to live without food for a week; without water for a day or two, but without breathing, we usually cannot survive more than a few minutes. Why is that? All of us are alive because we breathe. Not just humans, plants and other animals also breathe. But how do we breathe?

Just as food follows a specific pathway in the digestive system, our body also has a specific system for breathing and respiration.

This system is called respiratory system. The respiratory system consists of various parts as shown in Figure. In this system, the exchange of gases follows a specific pathway. The pathway through which the air is inhaled and exhaled involves various parts of the respiratory system assisting in the process of breathing and respiration.

The respiratory system begins with a pair of nasal openings called nostrils through which we inhale and exhale air (Figure). The inhaled air passes into a pair of small passages called the nasal passages. Have windpi you noticed tiny hair inside your nostrils? Alveoli These hair, along with mucus, help trap Left lung dust and dirt from the air we breathe in.

This is why we should breathe through the nose and not through the mouth. From the case nasal passages, the air reaches our lungs Diaphragm through the windpipe. The windpipe forms two branches, which enter the two lungs.

In the lungs, these branches further divide into smaller and finer branches that end in small balloon-like sacs called alveoli (Figure). Our lungs are protected by the rib cage.

Fig. Human respiratory system

Science And Society
While a lot of the dust is filtered out from the inhaled air, often small infectious particles can get through the lungs. For example, during the COVID-19 pandemic, the SARS-CoV-2 virus affected the respiratory system, leading to breathing difficulties and often causing serious lung problems.

Let us understand the mechanism of breathing by making a simple model.

Let us make a model

• Take a wide transparent plastic bottle with a lid. Remove its bottom.
• Make a hole in the lid of the bottle.
• Take a Y-shaped hollow tube, as shown in Figure.
• Fix two deflated balloons to the forked end of the tube. Secure them with rubber bands to make them airtight.
• Insert the straight end of the tube tightly through the lid from the open base of the bottle and seal the lid with clay to make it airtight.
• To the open base of the bottle, attach a thin rubber sheet tightly using a large rubber band.

Fig. Model to show mechanisms of breathing

Pull the rubber sheet from the centre of the base downwards and watch the balloons (Fig. (a)). What do you observe? Now, release the rubber sheet upwards and observe the balloons (Fig. (b)). What changes do you see in the balloons? When you pull the rubber sheet downwards, the balloons inflate. Conversely, when you release the rubber sheet upwards, the balloons deflate.

Fig. Mechanism of breathing

Air is drawn in Air is forced out When you breathe in (inhale), your chest expands as the ribs move up and outwards. The diaphragm (a dome-shaped muscle below the lungs) moves downwards during inhalation (Fig. (a)). This increases the space inside the chest, and air enters the lungs. When you breathe out (exhale), the ribs move down and inwards, and the diaphragm moves upwards (Fig. (b)), reducing space and pushing air out of the lungs.

What do the balloons in the model mentioned in Fig. 9.9 represent? What does the rubber sheet represent? In this model, the balloons represent the lungs, and the rubber sheet represents the diaphragm.

Science And Society
Breathing Practices for a Healthy Life
Breathing exercises have been practised across different cultures in India and worldwide for centuries. Pranayama is well known for improving respiratory health, mind relaxation, and concentration.
In Ladakh, people practise Tummo breathing, a technique that improves lung function and helps keep the body warm even in cold weather. Similarly, deep breathing techniques are used to promote well-being. Some traditions combine deep breathing with chanting, using rhythmic breath control to enhance relaxation and mental clarity.

What do we breathe out?

Let us explore
To be demonstrated by the teacher

• Take an equal amount of freshly prepared lime water in two test tubes, A and B, as given in Figure.
• In test tube A, pass the air using a syrmge/pichkari (Fig. (a)).
• This is the same air that you inhale.
• In test tube B, repeatedly blow air through your mouth into the lime water using a straw (Fig. (b)).
• Do you observe any changes in the colour of the lime water?
• The lime water in test tube B turns milky (or cloudy), but the lime water in test tube A does not. What does this indicate? Lime water turns milky when it reacts with carbon dioxide. Therefore, this indicates that the exhaled air contains more carbon dioxide than the air we inhale.

Fig. (a) Air is passed into lime water with a pichkari/syringe (b) Air is exhaled into lime water

How does the exchange of gases happen?

Through the process of breathing, fresh air from outside enters the lungs and fills the alveoli. The alveoli have thin walls surrounded by fine tubes containing blood (Fig. 9.12). Blood carries carbon dioxide from the body to the alveoli, where it is released into the air. At the same time, oxygen from the alveoli passes into the blood and is transported to all parts of the body.

Have you ever wondered how the food you eat gives you energy? The key is not only the food but also the oxygen we breathe! When we eat food, our body breaks it down into simple substances like sugar (glucose). Oxygen helps break down glucose to release energy. This process is called respiration. The word equation of the process of respiration is as follows—
Glucose + Oxygen → Carbon dioxide + Water + Energy

Fig. The percentage of oxygen and carbon dioxide in inhaled and exhaled air

During breathing, we inhale air from our surroundings and exhale air having more carbon dioxide than the inhaled air. Note that not all the oxygen is used up (Fig. 9.13). Some other animals can use a larger fraction of the oxygen during respiration. This exchange of gases ensures that each segment of our body gets oxygen to produce energy and remove waste products. In simple words, breathing brings in oxygen and removes carbon dioxide, while respiration uses oxygen to break down food and release energy. This energy helps us walk, run, play, and even think!

Breathing is a physical process, while respiration is a chemical process that occurs inside the body. Both the processes are essential for our survival!

Our body has a unique system for the transport of nutrients, oxygen, and other substances. This system is called the circulatory system. It includes the heart, blood, and blood vessels. The heart pumps blood through blood vessels, ensuring the transport of nutrients, oxygen, and other substances to all parts of the body, while waste products are carried away.

Science And Society
Smoking is extremely harmful to health. It damages the lungs and increases the risk of serious diseases, including lung cancer and other respiratory illnesses. It leads to persistent coughing and frequent infections.

In addition to harming the smoker, smoking releases toxic chemicals into the air, putting others at risk. When non-smokers inhale this polluted air, they experience passive smoking, which can be especially dangerous for children, pregnant women, and the elderly. Due to these risks, avoiding smoking helps protect both personal health and the well-being of those around us.

Do other animals breathe the same way as humans do?

You have learnt that different animals live in different habitats. You may have observed birds flying and fish swimming.
How do they breathe? Animals, such as birds, elephants, lions, cows, goats, lizards, and snakes, breathe through their lungs. Although all these animals have lungs, the structure of their lungs are quite different. Most aquatic animals like fish, have specialised structures known as gills (Figure). These are richly supplied with blood vessels. The exchange of oxygen and carbon dioxide between the blood and the gases dissolved in water takes place across the gills.

Fig. Breathing body parts in a fish

Amphibians, like frogs, live both on land and in water. They use different body parts for breathing at various stages of their life. For example, tadpoles breathe through gills, while adult frogs use lungs for breathing on land and skin for gas exchange when they stay in water. This adaptation helps them survive both in water and on land, showing how animals have adapted over time to different environments. Earthworms use their moist skin for the exchange of oxygen and carbon dioxide.

Thus, different animals have different breathing mechanisms to suit their unique habitats. Apart from the digestive system, the respiratory system, and the circulatory system, there are other systems which work in coordination with each other in the body and perform different functions to sustain life. You will study about them in higher grades.

The post Life Processes in Animals Class 7 Notes Science Chapter 9 appeared first on Learn CBSE.

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