Digestive System

 
Parts of the Digestive System

Learning Goal:

The student will be able to…

1. …explain the three purposes of the digestive system.

2. …describe the organs in the digestive system and state what each part does.


 

 

Vocabulary:

 

 

mouth

where food is cut and chewed, and where enzymes in saliva begin to break down food into nutrients

 

esophagus

a muscular tube that connects the mouth to the stomach

 

stomach

a j-shaped pouch where most mechanical and some chemical digestion takes place

 

small intestine

a long, thin tube where most digestion takes place



liver

an organ that produces bile, a substance that flows into the gallbladder, then into the small intestine to help break down fat

 

pancreas

produces enzymes that flow into the small intestines to break down starches, proteins and fats

 

large intestine

the final organ in the digestive system, where water is absorbed from waste before it leaves the body

 

rectum 

a short tube and muscular opening where waste leaves the body

 


 

 

 


 


 

 

 


Click below to watch a video about the parts of the digestive system. You don't need to know every word, just the big ideas.

Digestive System Video


 

Functions of the Digestive System

 

(click on the icon below to listen.)

Beaumont’s observations helped scientists understand the role of the stomach in the digestive system. The digestive system has three main functions. First, it breaks down food into molecules the body can use. Then, the molecules are absorbed into the blood and carried throughout the body. Finally, wastes are eliminated from the body.

 

Digestion

 

The process by which your body breaks down food into small nutrient molecules is called digestion. There are two kinds of digestion—mechanical and chemical. In mechanical digestion, foods are physically broken down into smaller pieces. Mechanical digestion occurs when you bite into a sandwich and chew it into small pieces.

 

In chemical digestion, chemicals produced by the body break foods into their smaller chemical building blocks. For example, the starch in bread is broken down into individual sugar molecules.

 

Absorption and Elimination

 

After your food is digested, the molecules are ready to be transported throughout your body. Absorption (ab sawrp shun) is the process by which nutrient molecules pass through the wall of your digestive system into your blood. Materials that are not absorbed, such as fiber, are eliminated from the body as wastes.


 

The Mouth

 

(click on the icon below to listen.)

 

Have you ever walked past a bakery or restaurant and noticed your mouth watering? Smelling or even just thinking about food when you’re hungry is enough to start your mouth watering. This response isn’t accidental. When your mouth waters, your body is preparing for the delicious meal it expects. Both mechanical and chemical digestion begin in the mouth. The fluid released when your mouth waters is saliva (suh ly vuh). Saliva plays an important role in both kinds of digestion.

 

Mechanical Digestion in the Mouth

 

Your teeth carry out the first stage of mechanical digestion. Your center teeth, or incisors (in sy zurz), cut the food into bite-sized pieces. On either side of the incisors there are sharp, pointy teeth called canines (kay nynz). These teeth tear and slash the food into smaller pieces. Behind the canines are the premolars and molars, which crush and grind the food. As the teeth do their work, saliva moistens the pieces of food into one slippery mass.

 

Chemical Digestion in the Mouth

 

As mechanical digestion begins, so does chemical digestion. If you take a bite of a cracker and suck on it, the cracker begins to taste sweet. It tastes sweet because a chemical in the saliva has broken down the starch molecules in the cracker into sugar molecules.

 

The chemical in saliva that digests starch is an enzyme. Enzymes are proteins that speed up chemical reactions in the body. Your body produces many different enzymes. Each enzyme has a specific chemical shape. Its shape enables it to take part in only one kind of chemical reaction. An example of enzyme action is shown in Figure 14.

 

The Esophagus

 

(click on the icon below to listen.)

If you’ve ever choked on food, your food may have “gone down the wrong way.” That’s because there are two openings at the back of your mouth. One opening leads to your windpipe, which carries air into your lungs. As you swallow, a flap of tissue called the epiglottis seals off your windpipe, preventing the food from entering. The food goes into the esophagus, a muscular tube that connects the mouth to the stomach. The esophagus is lined with mucus, a thick, slippery substance produced by the body. Mucus makes food easier to swallow and move along.

 

Food remains in the esophagus for only about 10 seconds. After food enters the esophagus, contractions of smooth muscles push the food toward the stomach. These involuntary waves of muscle contraction are called peristalsis. This also occurs in the stomach and farther down the digestive system. These muscular waves keep food moving in one direction.

 

The Stomach

 

(click on the icon below to listen.)

When food leaves the esophagus, it enters the stomach, a J-shaped, muscular pouch located in the abdomen. As you eat, your stomach expands to hold all of the food that you swallow. Most mechanical digestion and some chemical digestion occur in the stomach.

 

Mechanical Digestion in the Stomach

 

The process of mechanical digestion occurs as three strong layers of smooth muscle contract to produce a churning motion. This action mixes the food with fluids in somewhat the same way that clothes and soapy water are mixed in a washing machine.

 

Chemical Digestion in the Stomach

 

Chemical digestion occurs as the churning food makes contact with digestive juice, a fluid produced by cells in the lining of the stomach. Digestive juice contains the enzyme pepsin. Pepsin chemically digests the proteins in your food, breaking them down into short chains of amino acids.

 

Digestive juice also contains hydrochloric acid, a very strong acid. Without this strong acid, your stomach could not function properly. First, pepsin works best in an acid environment. Second, the acid kills many bacteria that you swallow with your food.

 

Why doesn’t stomach acid burn a hole in your stomach? The reason is that cells in the stomach lining produce a thick coating of mucus, which protects the stomach lining. Also, the cells that line the stomach are quickly replaced as they are damaged or worn out.

 

Food remains in the stomach until all of the solid material has been broken down into liquid form. A few hours after you finish eating, the stomach completes mechanical digestion of the food. By that time, most of the proteins have been chemically digested into shorter chains of amino acids. The food, now a thick liquid, is released into the next part of the digestive system. That is where final chemical digestion and absorption will take place.

 

The Small Intestine

 

(click on the icon below to listen.)

After the thick liquid leaves the stomach, it enters the small intestine. The small intestine is the part of the digestive system where most chemical digestion takes place. You may wonder how the small intestine got its name. After all, at about 6 meters—longer than some full-sized cars—it makes up two thirds of the length of the digestive system. The small intestine was named for its small diameter. It is from 2 to 3 centimeters wide, about half the diameter of the large intestine.

 

When food reaches the small intestine, it has already been mechanically digested into a thick liquid. But chemical digestion has just begun. Starches and proteins have been partially broken down, but fats haven’t been digested at all. Almost all chemical digestion and absorption of nutrients takes place in the small intestine. As the liquid moves into the small intestine, it mixes with enzymes and secretions that are produced by the small intestine, the liver, and the pancreas. The liver and the pancreas deliver their substances to the small intestine through small tubes.

 

 

The Liver

 

As you can see in Figure 16, the liver is located in the upper right portion of the abdomen. It is the largest organ inside the body. The liver is like an extremely busy chemical factory and plays a role in many body processes. For example, it breaks down medicines, and it helps eliminate nitrogen from the body. The role of the liver in the digestive system is to produce bile.

 

Bile is a substance that breaks up fat particles. Bile flows from the liver into the gallbladder, the organ that stores bile. After you eat, bile passes through a tube from the gallbladder into the small intestine.

 

Bile is not an enzyme. It does not chemically digest foods. It does, however, physically break up large fat particles into smaller fat droplets. You can compare the action of bile on fats with the action of soap on a greasy frying pan. Soap physically breaks up the grease into small droplets that can mix with the soapy water and be washed away. Bile mixes with the fats in food to form small fat droplets. The droplets can then be chemically broken down by enzymes produced in the pancreas.

 

The Pancreas

 

The pancreas is a triangular organ that lies between the stomach and the first part of the small intestine. Like the liver, the pancreas plays a role in many body processes. As part of the digestive system, the pancreas produces enzymes that flow into the small intestine and help break down starches, proteins, and fats.

 

Digestive enzymes do not break down all food substances. Recall that the fiber in food isn’t broken down. Instead, fiber thickens the liquid material in the intestine. This thickening makes it easier for peristalsis to push the material forward.

 

 

After chemical digestion takes place, the small nutrient molecules are ready to be absorbed by the body. The structure of the small intestine makes it well suited for absorption. The inner surface, or lining, of the small intestine looks bumpy. Millions of tiny finger-shaped structures called villi (vil eye) (singular villus) cover the surface. The villi absorb nutrient molecules. Notice in Figure 17 that tiny blood vessels run through the center of each villus. Nutrient molecules pass from cells on the surface of a villus into blood vessels. The blood carries the nutrients throughout the body for use by body cells.

 

Absorption in the Small Intestine

 

Villi greatly increase the surface area of the small intestine. If all the villi were laid out flat, the total surface area of the small intestine would be about as large as a tennis court. This increased surface enables digested food to be absorbed much faster than if the walls of the small intestine were smooth.

 

 

The Large Intestine

 

(click on the icon below to listen.)

By the time material reaches the end of the small intestine, most nutrients have been absorbed. The remaining material moves from the small intestine into the large intestine. The large intestine is the last section of the digestive system. It is about 1.5 meters long—about as long as the average bathtub. It runs up the right-hand side of the abdomen, across the upper abdomen, and then down the left-hand side. The large intestine contains bacteria that feed on the material passing through. These bacteria normally do not cause disease. In fact, they are helpful because they make certain vitamins, including vitamin K.

 

 

The material entering the large intestine contains water and undigested food. As the material moves through the large intestine, water is absorbed into the bloodstream. The remaining material is readied for elimination from the body.

 

The large intestine ends in a short tube called the rectum. Here, waste material is compressed into a solid form. This waste material is eliminated from the body through the anus, a muscular opening at the end of the rectum.

 


Click below for an online quiz about the parts of the digestive system.

Digestive System Online Quiz



 

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