What is Weight āĻ“āĻœāĻ¨ ? Find the weight āĻ“āĻœāĻ¨ on Moon & Earth.

What is Weight ?


Definition : Weight is the gravitational force acting on an object. It is the force with which a planet (like Earth) pulls an object toward its center.


Formula : W = m×g 


Where: W = Weight (Newton, N), m = Mass of the object (kg), g = Acceleration due to gravity (m/s²)


Important Points : i. Weight depends on mass and gravity. , ii. The unit of weight is Newton (N). iii. If gravity changes, weight changes.


Gravity Values


Earth : Gravity (g) = 9.8 m/s², Weight formula: W = m × 9.8


Moon : Gravity (g) = 1.6 m/s², Weight formula: W = m × 1.6


Key Concept : i. Mass remains the same everywhere., ii. Weight changes depending on gravity.


Example


Given: Mass (m) = 10 kg


On Earth : W = m × g = 10 × 9.8 = 98 N


Weight on Earth = 98 Newton


On Moon : W = m × g = 10 × 1.6 = 16 N


Weight on Moon = 16 Newton


āĻ“āĻœāĻ¨ āĻ•āĻŋ ?


āĻ¸āĻ‚āĻœā§āĻžāĻž : āĻ“āĻœāĻ¨ āĻšā§ˆāĻ›ā§‡ āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ“āĻĒā§°āĻ¤ āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§€āĻ¯āĻŧ āĻļāĻ•ā§āĻ¤āĻŋā§° āĻĢāĻ˛āĻ¤ āĻšā§‹ā§ąāĻž āĻŸāĻžāĻ¨ āĻŦāĻž āĻŦāĻ˛āĨ¤ āĻ…ā§°ā§āĻĨāĻžā§Ž, āĻĒā§ƒāĻĨāĻŋā§ąā§€āĻ¯āĻŧā§‡ āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§āĻŸā§‹āĻ• āĻ¨āĻŋāĻœā§° āĻ•ā§‡āĻ¨ā§āĻĻā§ā§°ā§° āĻĢāĻžāĻ˛ā§‡ āĻ¯āĻŋ āĻļāĻ•ā§āĻ¤āĻŋā§°ā§‡ āĻŸāĻžāĻ¨ā§‡ āĻ¤āĻžāĻ•ā§‡āĻ‡ āĻ“āĻœāĻ¨ āĻŦā§‹āĻ˛āĻž āĻšāĻ¯āĻŧāĨ¤


āĻŽā§āĻ–ā§āĻ¯ āĻ•āĻĨāĻž : i. āĻ“āĻœāĻ¨ āĻšā§ˆāĻ›ā§‡ āĻāĻŸāĻž āĻŦāĻ˛ (Force), ii. āĻ‡āĻ¯āĻŧāĻžā§° āĻāĻ•āĻ• āĻšā§ˆāĻ›ā§‡ āĻ¨āĻŋāĻ‰āĻŸāĻ¨ (N),  ii. āĻ¸ā§‚āĻ¤ā§ā§°: W = m × g


āĻ‡āĻ¯āĻŧāĻžāĻ¤ : W = āĻ“āĻœāĻ¨ (āĻ¨āĻŋāĻ‰āĻŸāĻ¨, N), m = āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ­ā§° (kg), g = āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§€āĻ¯āĻŧ āĻ¤ā§āĻŦā§°āĻŖ (m/s²)


āĻ—ā§ā§°ā§āĻ¤ā§āĻŦāĻĒā§‚āĻ°ā§āĻŖ āĻ•āĻĨāĻž : i. āĻ“āĻœāĻ¨ āĻ­ā§° āĻ†ā§°ā§ āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§° āĻ“āĻĒā§°āĻ¤ āĻ¨āĻŋā§°ā§āĻ­ā§° āĻ•ā§°ā§‡ ,  ii. āĻ“āĻœāĻ¨ā§° āĻāĻ•āĻ• āĻšā§ˆāĻ›ā§‡ āĻ¨āĻŋāĻ‰āĻŸāĻ¨ (N),  iii. āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇ āĻ¸āĻ˛āĻ¨āĻŋ āĻš’āĻ˛ā§‡ āĻ“āĻœāĻ¨ā§‹ āĻ¸āĻ˛āĻ¨āĻŋ āĻšāĻ¯āĻŧāĨ¤


āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§° āĻŽāĻžāĻ¨ : āĻĒā§ƒāĻĨāĻŋā§ąā§€ (Earth) : g = 9.8 m/s² , āĻ¸ā§‚āĻ¤ā§ā§°: W = m × 9.8, āĻšāĻ¨ā§āĻĻā§ā§° (Moon) : g = 1.6 m/s², āĻ¸ā§‚āĻ¤ā§ā§°: W = m × 1.6


āĻŽā§āĻ–ā§āĻ¯ āĻ§āĻžā§°āĻŖāĻž : i. āĻ­ā§° āĻ¸āĻ•āĻ˛ā§‹ āĻ āĻžāĻ‡āĻ¤ā§‡ āĻāĻ•ā§‡ āĻĨāĻžāĻ•ā§‡āĨ¤ , ii. āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇ āĻ¸āĻ˛āĻ¨āĻŋ āĻš’āĻ˛ā§‡ āĻ“āĻœāĻ¨ āĻ¸āĻ˛āĻ¨āĻŋ āĻšāĻ¯āĻŧāĨ¤


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Force, Work, Energy & Gravity – MCQs


Q1. What is the SI unit of force ? : āĻŦāĻ˛ā§° SI āĻāĻ•āĻ• āĻ•āĻŋ ?


A) Joule | B) Newton | C) Watt | D) Pascal


Ans: B) Newton
Explanation: Force is measured in Newton (N). āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻŦāĻ˛ā§° āĻāĻ•āĻ• āĻšā§ˆāĻ›ā§‡ āĻ¨āĻŋāĻ‰āĻŸāĻ¨ (N)āĨ¤


Q2. Work is done when: āĻ•ā§‡āĻ¤āĻŋāĻ¯āĻŧāĻž āĻ•āĻžāĻŽ (Work) āĻ•ā§°āĻž āĻšāĻ¯āĻŧ ?


A) Force acts without displacement | B) Force acts with displacement | C) Object at rest | D) Speed constant


Ans: B) Force acts with displacement
Explanation: Work requires force and displacement. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻ•āĻžāĻŽ āĻš’āĻŦāĻ˛ā§ˆ āĻŦāĻ˛ āĻ†ā§°ā§ āĻ¸ā§āĻĨāĻžāĻ¨āĻžāĻ¨ā§āĻ¤ā§° āĻĻā§āĻ¯āĻŧā§‹āĻŸāĻž āĻ˛āĻžāĻ—āĻŋāĻŦāĨ¤


Q3. What is the SI unit of work ? āĻ•āĻžāĻŽā§° SI āĻāĻ•āĻ• āĻ•āĻŋ ?


A) Joule | B) Newton | C) Watt | D) Pascal


Ans: A) Joule
Explanation: Work is measured in Joule. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻ•āĻžāĻŽā§° āĻāĻ•āĻ• āĻšā§ˆāĻ›ā§‡ āĻœā§āĻ˛āĨ¤


Q4. Power is defined as: āĻ•ā§āĻˇāĻŽāĻ¤āĻž (Power) āĻ•āĻžāĻ• āĻ•ā§‹ā§ąāĻž āĻšāĻ¯āĻŧ ?


A) Work × Time | B) Work / Time | C) Force × Time | D) Energy × Time


Ans: B) Work / Time
Explanation: Power = Work ÷ Time. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻ•ā§āĻˇāĻŽāĻ¤āĻž = āĻ•āĻžāĻŽ ÷ āĻ¸āĻŽāĻ¯āĻŧāĨ¤


Q5. The SI unit of power is: āĻ•ā§āĻˇāĻŽāĻ¤āĻžā§° SI āĻāĻ•āĻ• āĻ•āĻŋ ?


A) Joule | B) Watt | C) Newton | D) Volt


Ans: B) Watt
Explanation: Power is measured in Watt. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻ•ā§āĻˇāĻŽāĻ¤āĻžā§° āĻāĻ•āĻ• āĻšā§ˆāĻ›ā§‡ ā§ąāĻžāĻŸāĨ¤


Q6. Energy is defined as: āĻļāĻ•ā§āĻ¤āĻŋ āĻ•āĻžāĻ• āĻ•ā§‹ā§ąāĻž āĻšāĻ¯āĻŧ ?


A) Ability to do work | B) Force | C) Speed | D) Motion


Ans: A) Ability to do work
Explanation: Energy means ability to do work. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻļāĻ•ā§āĻ¤āĻŋ āĻŽāĻžāĻ¨ā§‡ āĻ•āĻžāĻŽ āĻ•ā§°āĻŋāĻŦ āĻĒā§°āĻž āĻ•ā§āĻˇāĻŽāĻ¤āĻžāĨ¤


Q7. Potential energy depends on: āĻ¸ā§āĻĨāĻŋāĻ¤āĻŋāĻļāĻ•ā§āĻ¤āĻŋ (Potential Energy) āĻ•āĻŋāĻšā§° āĻ“āĻĒā§°āĻ¤ āĻ¨āĻŋā§°ā§āĻ­ā§° āĻ•ā§°ā§‡ ?


A) Mass | B) Height | C) Gravity | D) All of these


Ans: D) All of these
Explanation: PE = mgh. āĻŦā§āĻ¯āĻžāĻ–ā§āĻ¯āĻž: āĻ¸ā§āĻĨāĻŋāĻ¤āĻŋāĻļāĻ•ā§āĻ¤āĻŋ = mghāĨ¤


Q8. Formula of kinetic energy is: āĻ—āĻ¤āĻŋāĻļāĻ•ā§āĻ¤āĻŋā§° āĻ¸ā§‚āĻ¤ā§ā§° āĻ•āĻŋ ?


A) ½mv² | B) mgh | C) ma | D) mv


Ans: A) ½mv²


Q9. Gravitational force was discovered by: āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§€āĻ¯āĻŧ āĻŦāĻ˛ āĻ•āĻžāĻ•ā§‡āĻ‡ āĻ†āĻŦāĻŋāĻˇā§āĻ•āĻžā§° āĻ•ā§°āĻŋāĻ›āĻŋāĻ˛ ?


A) Einstein | B) Newton | C) Galileo | D) Faraday


Ans: B) Newton


Q10. Gravity on the Moon is: āĻšāĻ¨ā§āĻĻā§ā§°āĻ¤ āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§° āĻŽāĻžāĻ¨ āĻ•āĻŋāĻŽāĻžāĻ¨ ?


A) 1/6 of Earth | B) 1/3 of Earth | C) Same as Earth | D) Double Earth


Ans: A) 1/6 of Earth


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Q11. Work done is zero when: āĻ•āĻžāĻŽ āĻļā§‚āĻ¨ā§āĻ¯ āĻšāĻ¯āĻŧ āĻ•ā§‡āĻ¤āĻŋāĻ¯āĻŧāĻž ?


A) Force acts but no displacement | B) Object moves | C) Speed increases | D) Force increases


Ans: A) Force acts but no displacement


Q12. If displacement is zero, work done is: āĻ¯āĻĻāĻŋ āĻ¸ā§āĻĨāĻžāĻ¨āĻžāĻ¨ā§āĻ¤ā§° āĻļā§‚āĻ¨ā§āĻ¯ āĻšāĻ¯āĻŧ, āĻ•āĻžāĻŽ āĻš’āĻŦ:


A) Maximum | B) Minimum | C) Zero | D) Infinite


Ans: C) Zero


Q13. A moving car possesses: āĻāĻŸāĻž āĻ—āĻ¤āĻŋ āĻ•ā§°āĻž āĻ—āĻžāĻĄāĻŧā§€āĻ¤ āĻ•āĻŋ āĻļāĻ•ā§āĻ¤āĻŋ āĻĨāĻžāĻ•ā§‡ ?


A) Potential energy | B) Kinetic energy | C) Chemical energy | D) Heat energy


Ans: B) Kinetic energy


Q14. Energy stored in a stretched spring is: āĻāĻŸāĻž āĻŸāĻžāĻ¨ āĻ–ā§‹ā§ąāĻž āĻ¸ā§āĻĒā§ā§°āĻŋāĻ‚āĻ¤ āĻ•āĻŋ āĻļāĻ•ā§āĻ¤āĻŋ āĻĨāĻžāĻ•ā§‡ ?


A) Chemical energy | B) Elastic potential energy | C) Heat energy | D) Magnetic energy


Ans: B) Elastic potential energy


Q15. Weight is equal to: āĻ“āĻœāĻ¨ āĻ¸āĻŽāĻžāĻ¨:


A) m × g | B) m × a | C) g/m | D) m + g


Ans: A) m × g


Q16. Which quantity remains constant everywhere ? āĻ•ā§‹āĻ¨āĻŸā§‹ ā§°āĻžāĻļāĻŋ āĻ¸āĻ•āĻ˛ā§‹ āĻ āĻžāĻ‡āĻ¤ā§‡ āĻāĻ•ā§‡ āĻĨāĻžāĻ•ā§‡ ?


A) Weight | B) Gravity | C) Mass | D) Force


Ans: C) Mass


Q17. Energy cannot be created or destroyed. This law is called: āĻļāĻ•ā§āĻ¤āĻŋ āĻ¸ā§ƒāĻˇā§āĻŸāĻŋ āĻŦāĻž āĻ§ā§āĻŦāĻ‚āĻ¸ āĻ•ā§°āĻŋāĻŦ āĻ¨ā§‹ā§ąāĻžā§°āĻŋāĨ¤ āĻāĻ‡āĻŸā§‹ āĻ•ā§‹āĻ¨āĻŸā§‹ āĻ¨āĻŋāĻ¯āĻŧāĻŽ ?


A) Newton's law | B) Law of conservation of energy | C) Law of gravity | D) Law of motion


Ans: B) Law of conservation of energy


Q18. A body at rest has: āĻ¸ā§āĻĨāĻŋāĻ¤ āĻ…ā§ąāĻ¸ā§āĻĨāĻžāĻ¤ āĻĨāĻ•āĻž āĻŦāĻ¸ā§āĻ¤ā§ āĻāĻŸāĻžāĻ¤ āĻ•āĻŋ āĻļāĻ•ā§āĻ¤āĻŋ āĻĨāĻžāĻ•ā§‡ ?


A) Kinetic energy | B) Potential energy | C) No energy | D) Infinite energy


Ans: B) Potential energy


Q19. Work done against gravity increases: āĻŽāĻšāĻžāĻ•āĻ°ā§āĻˇā§° āĻŦāĻŋāĻĒā§°ā§€āĻ¤ā§‡ āĻ•āĻžāĻŽ āĻ•ā§°āĻŋāĻ˛ā§‡ āĻ•āĻŋ āĻŦā§ƒāĻĻā§āĻ§āĻŋ āĻĒāĻžāĻ¯āĻŧ ?


A) Kinetic energy | B) Potential energy | C) Speed | D) Mass


Ans: B) Potential energy


Q20. The force pulling objects toward Earth is: āĻĒā§ƒāĻĨāĻŋā§ąā§€ā§° āĻĢāĻžāĻ˛ā§‡ āĻŦāĻ¸ā§āĻ¤ā§ āĻŸāĻžāĻ¨āĻŋāĻŦ āĻĒā§°āĻž āĻŦāĻ˛:


A) Magnetic force | B) Gravitational force | C) Friction | D) Electric force


Ans: B) Gravitational force