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Work & Energy - NCERT CBSE Important Questions (with answers), Class 9 Science PDF Download

Q.1. Can any object have mechanical energy even if its momentum is zero? Explain.
Ans. Yes, mechanical energy comprises of both potential energy and kinetic energy. Zero momentum means that velocity is zero. Hence, there it no kinetic energy but the object may possess potential energy.

Q.2. The potential energy of a body is 39600J. How high is the body if its mass is 20kg?
Ans. The potential energy of a body = mgh h = PE/mg = 39600j/20kg x9.8m/s2=198m

Q.3. A force of 20 N displaces a body through a distance of 1 m at an angle of 60° from its own direction. Calculate the amount of work done.
Ans. Here, force F = 20 N, displacement, s = 1 m. Angle between force and displacement 60°.
 Work done,W =Fscos0 =20 X 1 X cos60°=20X 1 X 1/2 = 10J.
 A man of 50 kg jumps up to a height of 1.2 m. What is his potential energy at the highest point?
 The potential energy of man = mgh = = 50 + 10 X 1.2 J = 600 J

Q.4. How much work is done by a force of 10 N in moving an object through a distance of 4 m in the direction of the force.
Ans. Work done Force x Displacement =F.s = (10 N) x (4 rn) = 40 joule or 40J.

Q.5. A light and a heavy object have the same momentum find out the ratio of their kinetic energies. Which one has a larger kinetic energy?
Ans. Linear momentum of 1st object = p1=m1v1
 Linear momentum of 2nd  object = p2=m2v2
 Given, p1 >  p2 ---------------------------------(i)
 Þ m1v1 > m2v2
 But, m1<m2 (A light and a heavy object)  Þ v1 > v2   ------------(ii)
 Ke = ½ mv2 = ½ m vx v =1/2 pv
 From (i)and (ii)  p1v1 > p2v2   Þ ½ p1v1 > ½ p2v2  Þ KE1> KE2

Q.6. What is power? How do you differentiate kilowatt from kilowatt hour?
Ans. Power is the rate of doing work. Kilowatt is the unit of power and kilowatt hour is the unit of energy.

Q.7. A rocket is moving up with a velocity v. If the velocity of this rocket is suddenly tripled, what will be the ratio of two kinetic energies?
Ans. Initial KE/Final KE = ( ½ mu2) /( ½ mv2) = ( ½ mu2) /{ ½ m(3v2)} =1:9

Q.8.  Calculate the work done in lifting 200 kg of water through a vertical height of 6 m.
Ans. Work done in lifting a body = Weight of body X vertical distance
 The work done in lifting  = W = mgh = 200 kg x 10m/s2 x6 m = 1200J

Q.9. Give one example each of potential energy (i) due to position (ii) due to shape.
Ans.
 (i) Potential energy due to position: Water stored in dam has potential energy.
 (ii) Potential energy due to shape: In a toy car, the wound spring possesses potential energy, and as the spring is released, its potential energy changes into kinetic energy due to which the car moves.

Q.10. What kind of energy transformation takes place when a body is dropped from a certain height?
Ans. When a body falls, its potential energy gradually gets converted into kinetic energy. On reaching the ground, the whole of the potential energy of the body gets converted into kinetic energy.

Q.11. Can kinetic energy of a body be negative?
Ans. No as m ass and velocity cannot ne negative

Q.12. A freely falling object eventually stops on reaching the ground. What happens to its kinetic energy?
Ans. A freely falling object just before hitting the ground has maximum kinetic energy. After falling, it rolls on the rough ground and finally comes to rest. The kinetic energy of the object is used up in doing work against friction; which finally appears as heat energy.

Q.13. Find the energy in kWh consumed in 10 hours by four devices of power 500 W each.
Ans. Energy consumed = Power x time taken = 2000W x  10 h = 20000 Wh = 20 kWh.

Q.14. Calculate the work required to be done to stop a car of 1500 kg moving at a velocity of 60 km/h?
Ans. The work required to be done to stop a car = ( ½ mu2) - ( ½ mv2)=  ½ m(u2-v2)= 1/2x1500(602-0)=2.08J

Q.15. What is the work done by the force of gravity on a satellite moving round the Earth? Justify your answer.
 Ans.
The work done by the force of gravity on a satellite moving around the Earth is zero.
 When a satellite moves around the Earth in a circular path, then the force of gravity acts on it directed towards the centre. The motion of the satellite is in the horizontal plane. Therefore, the force of gravity of Earth on the satellite and the direction of motion of satellite are perpendicular to each other. Therefore, net work done = Fs cos 90 = 0. 

Q.16. The potential energy of a freely falling object decreases progressively. Does this violate the law of conservation of energy? Why?
Ans. During the free fall of the object, there is continuous decrease in potential energy. This decrease in potential energy appears as an equal amount of increase in kinetic energy. Thus, the sum of the potential energy and kinetic energy of the object would be the same at all points. That is, potential energy + kinetic energy = constant.
 According to the law of conservation of energy, the total energy of system remains unchanged. Thus, the given statement does not violate the law of conservation of energy.
 Define 1 J of work.
 Work done = Force x Displacement
 If force, F = 1 N and displacement, s = 1, m then the work done by the force will be 1 Nm or1 J. Thus, 1 J is the amount of work done on an object when a force of 1 N displaces it by 1 m along the line of action of the force.

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FAQs on Work & Energy - NCERT CBSE Important Questions (with answers), Class 9 Science

1. What is work in terms of physics?
Ans. In terms of physics, work is defined as the product of the force acting on an object and the distance over which it moves in the direction of the force. Mathematically, work (W) is represented as W = F × d, where F is the force applied, and d is the distance covered.
2. What is the unit of work and energy?
Ans. The unit of work and energy is joule (J). One joule is equal to the work done when a force of one newton is applied to an object and it moves one meter in the direction of the force.
3. What is the difference between kinetic energy and potential energy?
Ans. Kinetic energy is the energy possessed by a moving object due to its motion. It depends on the mass and velocity of the object. Potential energy, on the other hand, is the energy possessed by an object due to its position or state. It depends on the height, distance, and other factors. The key difference between the two is that kinetic energy is the energy of motion, while potential energy is the energy of position.
4. How is the principle of conservation of energy used in real-life situations?
Ans. The principle of conservation of energy states that energy can neither be created nor destroyed, it can only be transformed from one form to another. This principle is used in real-life situations such as hydroelectric power plants, where the gravitational potential energy of water is converted to kinetic energy to rotate turbines, which in turn generate electricity. Similarly, in a car, the chemical energy of fuel is converted to kinetic energy to move the car.
5. What is the relationship between work and power?
Ans. Power is the rate at which work is done. Mathematically, power (P) is represented as P = W/t, where W is the work done and t is the time taken to do the work. Therefore, the relationship between work and power is that work is the product of force and distance, while power is the rate at which the work is done. Higher power means that the same amount of work can be done in a shorter time, or more work can be done in the same amount of time.
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