Q1: Explain contact and non-contact forces. Give two examples for each.
Ans:
Contact forces: Forces that act only when there is physical contact between two interacting objects is known as Contact forces.
Example:
Friction Force and Tension Force
Non-contact forces: Forces that can act without physical contact between objects, i.e. those that can act from a distance, are called non-contact forces or field forces.
Example:
Gravitational Force and Electrostatic Force
Q2: (a) How can friction be reduced?
(b) How can it be increased? Give examples.
Ans: Reducing Friction
Increasing Friction
Q3: Do liquids and gases exert pressure on the walls of the container in all directions? Give an example to justify your statement.
Ans: Liquid and gases exert pressure on the walls of the container. For example, If we take a plastic bottle and drill four holes near the bottom of the bottle at the same height. After filling the water in that bottle, we observe that water comes out of the holes and falls at the same distance. This shows that liquid exerts pressure on the walls of the container in all directions.
Similarly, we cannot inflate a balloon with holes because the air inside the balloon exerts pressure in all directions. Hence, we can say that gases exert pressure on the walls of the container in all directions.
Q4: Why is it easy to push a nail into a wooden plank by the pointed end?
Ans: It is easy to push a nail into a wooden plank by a pointed end because the smaller the area, the larger the surface pressure for the same force. The area of the pointed end of the nail is much smaller than that of its head. The same force, therefore, produces a pressure sufficient to push the pointed end of the nail into the wooden plank.
Q5: Read the Table and try to identify the action as push or pull.
Ans: Table Identifying Actions as Push or Pull
S. No. | Description of the situation | Action: (Pushing/ pulling/ picking/ hitting/ lifting/lowering/ flying/ kicking/ throwing | Action can be grouped as a | ||||
|
|
| shutting/flicking) |
| push | pull | |
1. | Moving a book placed on a table | Pushing | Pulling | Lifting | — | Yes | Yes |
2. | Opening or shutting a door | Pulling | Pushing | Lifting | Lowering | Yes | Yes |
3. | Drawing a bucket of water from a well | Pulling | Lifting | Lowering | — | — | Yes |
4. | A football player taking a penalty kick | Kicking | Flying | — | — | Yes | — |
5. | A cricket ball hit by a batsman | Hitting | Flying | — | — | Yes | — |
6. | Moving a loaded cart | Pulling | — | — | — | — | Yes |
7. | Opening a drawer | Pulling | — | — | — | — | Yes |
Q6: Read the Table and complete it.
Ans: Table Studying the Effect of Force on Objects
Description of situation | How to apply force | Action of force | |||
Change in state of motion | Change in shape | ||||
Yes | No | Yes | No | ||
A lump of dough on a plate | Pressing it down with your hands | — | No | Yes | — |
Spring fixed to the seat of bicycle | By sitting on the seat | - | No | Yes | - |
A rubber band suspended from a hook/nail fixed on a wall | By hanging a weight or by pulling its free end | Yes | - | Yes | - |
A plastic or metal scale placed between two bricks | By putting a weight at the centre of the scale | - | No | Yes | - |
Q7: What are the various effects of force on different objects?
Ans: The various effects of force are:
Q8: What are contact forces? State different types of contact forces.
Ans: The forces that come into play only when two objects come in contact with each other are called contact forces.
Some contact forces are:
Q9: What are non-contact forces? Explain different types of non-contact forces.
Ans. The forces that can be exerted from a distance without establishing contact are called non-contact forces. Some non-contact forces are:
Q10: What is force? Name different types of forces.
Ans. A push or pull on an object is called force. There are the following types of forces:
Q11: Prove that the force of friction depends on the nature of the two surfaces in contact.
Ans. Collect the following things: A thick book, nylon cloth, gunny cloth, plastic sheet, jute cloth, and sandpaper. Place the book on each of the materials and slide it on the floor one by one. If your book slides off the plastic sheet or nylon cloth, use adhesive tape to stick it firmly on the surface of the book.
You will observe that the different materials offer different amounts of resistance to sliding.
This activity shows that the force of friction depends on the nature of the surface in contact. In general, a smooth surface offers less friction than a rough surface.
Q12: Prove that the pressure exerted by water at the bottom of the container depends on the height of its column.
Ans. Take a transparent glass tube or plastic pipe. Also, take a piece of a thin sheet of good quality rubber. Stretch the rubber sheet tightly over one end of the pipe. Hold the pipe in the middle, keeping it in a vertical position. Pour some water into the pipe. Note the height of the water column in the pipe. Pour some more water. Observe, the bulge in the rubber sheet and the height of the water column in the pipe.
Repeat this process a few more times. You observe that as the height of the water column increases, the bulge in the rubber sheet also increases.
Q13: Show that a liquid exerts pressure on the walls of the container.
Ans. Take a plastic bottle. Fix a cylindrical glass tube a few cm long near its bottom. You can do so by slightly heating one end of the glass tube and then quickly inserting it near the bottom of the bottle. Make sure that water does not leak from the joint. If there is any leakage, seal it with molten wax. Cover the mouth of the glass tube with a thin rubber sheet. Now, fill the bottle up to half with water. We observe the bulge in the rubber sheet. Pour some more water into the bottle. We see more bulges in the rubber sheet. This activity indicates that water exerts pressure on the walls of the container.
Q14: Explain that liquids exert equal pressure at the same depth.
Ans. Take an empty plastic bottle. Drill four holes all around near the bottom of the bottle. Make sure that all the holes are at the same height from the bottom. Now, fill the bottle with water. We observe that different streams of water coming out of the holes fall at the same distance from the bottle. This observation indicates that liquids exert equal pressure at the same depth.
Q 15: What experiment was performed to prove that air has pressure?
Ans. Otto von Guericke, a German Scientist, invented a pump in the 17th century to extract air out of a vessel. He demonstrated the force of the air pressure. He joined two hollow metallic hemispheres of 51 cm diameter each and pumped air out of them. Then, he employed eight horses on each hemisphere to pull them apart. So great is the force of air pressure that the hemispheres could not be pulled apart.
90 videos|273 docs|44 tests
|
1. What is the difference between force and pressure? |
2. How is force measured? |
3. What are the different types of forces? |
4. How does pressure affect objects? |
5. How can pressure be increased or decreased? |
|
Explore Courses for Class 8 exam
|