Mass vs Weight (āĻ­ā§° āĻŦāĻ¨āĻžāĻŽ āĻ“āĻœāĻ¨)



@. What is Weight ? | āĻ“āĻœāĻ¨ āĻ•āĻŋ ? : View Paper


@. What is Mass ? | āĻ­ā§° āĻ•āĻŋ ? : View Paper




What's the Difference ? | āĻĒāĻžā§°ā§āĻĨāĻ•ā§āĻ¯ āĻ•āĻŋ ?


MASS (āĻ­ā§°)



  • Amount of matter in an object (āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§āĻ¤ āĻĨāĻ•āĻž āĻĒāĻĻāĻžā§°ā§āĻĨā§° āĻĒā§°āĻŋāĻŽāĻžāĻŖāĨ¤)

  • Measured in kilogram (kg) (āĻ•āĻŋāĻ˛ā§‹āĻ—ā§ā§°āĻžāĻŽ (kg)-āĻ¤ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)

  • Same everywhere (āĻ¸āĻ•āĻ˛ā§‹ āĻ āĻžāĻ‡āĻ¤ā§‡ āĻāĻ•ā§‡ āĻĨāĻžāĻ•ā§‡āĨ¤)

  • Measured using a Beam Balance (āĻ¤ā§āĻ˛āĻžāĻĻāĻŖā§āĻĄ (Beam Balance)-ā§°ā§‡ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)



WEIGHT (āĻ“āĻœāĻ¨)



  • Gravitational force acting on an object (āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ“āĻĒā§°āĻ¤ āĻĒā§ā§°āĻ¯āĻŧā§‹āĻ— āĻšā§‹ā§ąāĻž āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖāĻœāĻ¨āĻŋāĻ¤ āĻŦāĻ˛āĨ¤)

  • Measured in Newton (N) (āĻ¨āĻŋāĻ‰āĻŸāĻ¨ (N)-āĻ¤ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)

  • Changes with gravity (āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ āĻļāĻ•ā§āĻ¤āĻŋ āĻ¸āĻ˛āĻ¨āĻŋ āĻš'āĻ˛ā§‡ āĻ“āĻœāĻ¨ā§‹ āĻ¸āĻ˛āĻ¨āĻŋ āĻšāĻ¯āĻŧāĨ¤)

  • Measured using a Spring Balance (āĻ¸ā§āĻĒā§ā§°āĻŋāĻ‚ āĻŦā§‡āĻ˛ā§‡āĻžā§āĻš (Spring Balance)-ā§°ā§‡ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)


Earth (āĻĒā§ƒāĻĨāĻŋā§ąā§€) // Moon (āĻšāĻ¨ā§āĻĻā§ā§°)


Gravity is weaker on the Moon. (āĻšāĻ¨ā§āĻĻā§ā§°āĻ¤ āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ āĻļāĻ•ā§āĻ¤āĻŋ āĻĒā§ƒāĻĨāĻŋā§ąā§€āĻ¤āĻ•ā§ˆ āĻ•āĻŽāĨ¤)


Therefore, an object weighs less on the Moon, but its mass remains the same. (āĻ¸ā§‡āĻ¯āĻŧā§‡, āĻšāĻ¨ā§āĻĻā§ā§°āĻ¤ āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ“āĻœāĻ¨ āĻ•āĻŽ āĻšāĻ¯āĻŧ, āĻ•āĻŋāĻ¨ā§āĻ¤ā§ āĻ­ā§° āĻāĻ•ā§‡āĻ‡ āĻĨāĻžāĻ•ā§‡āĨ¤)


Definitions | āĻ¸āĻ‚āĻœā§āĻžāĻž


MASS (āĻ­ā§°) : Mass is the amount of matter present in an object. (āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§āĻ¤ āĻĨāĻ•āĻž āĻŽā§āĻ  āĻĒāĻĻāĻžā§°ā§āĻĨā§° āĻĒā§°āĻŋāĻŽāĻžāĻŖāĻ• āĻ­ā§° āĻŦā§‹āĻ˛ā§‡āĨ¤)


WEIGHT (āĻ“āĻœāĻ¨): Weight is the gravitational force acting on an object. (āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖā§° āĻĢāĻ˛āĻ¤ āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ“āĻĒā§°āĻ¤ āĻĒā§ā§°āĻ¯āĻŧā§‹āĻ— āĻšā§‹ā§ąāĻž āĻŦāĻ˛āĻ• āĻ“āĻœāĻ¨ āĻŦā§‹āĻ˛ā§‡āĨ¤)


Formula | āĻ¸ā§‚āĻ¤ā§ā§°:


Weight Formula (āĻ“āĻœāĻ¨ā§° āĻ¸ā§‚āĻ¤ā§ā§°): W = mg


Where | āĻ¯'āĻ¤ : W = Weight (āĻ“āĻœāĻ¨), m = Mass (āĻ­ā§°), g = Acceleration due to gravity (āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖāĻœāĻ¨āĻŋāĻ¤ āĻ¤ā§āĻŦā§°āĻŖ)


Differences between Mass and Weight | āĻ­ā§° āĻ†ā§°ā§ āĻ“āĻœāĻ¨ā§° āĻĒāĻžā§°ā§āĻĨāĻ•ā§āĻ¯


Mass (āĻ­ā§°) : Amount of matter (āĻĒāĻĻāĻžā§°ā§āĻĨā§° āĻĒā§°āĻŋāĻŽāĻžāĻŖ), Measured in kg (kg-āĻ¤ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧ)



  • Amount of matter in an object. (āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§āĻ¤ āĻĨāĻ•āĻž āĻĒāĻĻāĻžā§°ā§āĻĨā§° āĻĒā§°āĻŋāĻŽāĻžāĻŖāĨ¤)

  • Measured in kilogram (kg). (āĻ•āĻŋāĻ˛ā§‹āĻ—ā§ā§°āĻžāĻŽ (kg)-āĻ¤ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)

  • Same everywhere. (āĻ¸āĻ•āĻ˛ā§‹ āĻ āĻžāĻ‡āĻ¤ā§‡ āĻāĻ•ā§‡ āĻĨāĻžāĻ•ā§‡āĨ¤)

  • Scalar quantity. (āĻ¸ā§āĻ•ā§‡āĻ˛āĻžā§° ā§°āĻžāĻļāĻŋāĨ¤)

  • Measured using a Beam Balance. (āĻ¤ā§āĻ˛āĻžāĻĻāĻŖā§āĻĄ (Beam Balance)-ā§°ā§‡ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)

  • Cannot be zero. (āĻļā§‚āĻ¨ā§āĻ¯ āĻš'āĻŦ āĻ¨ā§‹ā§ąāĻžā§°ā§‡āĨ¤)


Weight (āĻ“āĻœāĻ¨): Gravitational force acting on an object. (āĻ•ā§‹āĻ¨ā§‹ āĻŦāĻ¸ā§āĻ¤ā§ā§° āĻ“āĻĒā§°āĻ¤ āĻĒā§ā§°āĻ¯āĻŧā§‹āĻ— āĻšā§‹ā§ąāĻž āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖāĻœāĻ¨āĻŋāĻ¤ āĻŦāĻ˛āĨ¤), Measured in Newton (N). (āĻ¨āĻŋāĻ‰āĻŸāĻ¨ (N)-āĻ¤ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)



  • Changes with gravity (āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ āĻ…āĻ¨ā§āĻ¸ā§°āĻŋ āĻ¸āĻ˛āĻ¨āĻŋ āĻšāĻ¯āĻŧāĨ¤)

  • Vector quantity. (āĻ­ā§‡āĻ•ā§āĻŸā§° ā§°āĻžāĻļāĻŋāĨ¤)

  • Measured using a Spring Balance. (āĻ¸ā§āĻĒā§ā§°āĻŋāĻ‚ āĻŦā§‡āĻ˛ā§‡āĻžā§āĻš (Spring Balance)-ā§°ā§‡ āĻœā§‹āĻ–āĻž āĻšāĻ¯āĻŧāĨ¤)

  • Can be zero where there is no gravity. (āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ āĻ¨āĻžāĻĨāĻžāĻ•āĻŋāĻ˛ā§‡ āĻļā§‚āĻ¨ā§āĻ¯ āĻš'āĻŦ āĻĒāĻžā§°ā§‡āĨ¤)


Example | āĻ‰āĻĻāĻžāĻšā§°āĻŖ



  • A person has a mass of 60 kg. (āĻāĻœāĻ¨ āĻŦā§āĻ¯āĻ•ā§āĻ¤āĻŋā§° āĻ­ā§° 60 kgāĨ¤)

  • On Earth, his weight is about 588 N. (āĻĒā§ƒāĻĨāĻŋā§ąā§€āĻ¤ āĻ¤ā§‡āĻ“āĻā§° āĻ“āĻœāĻ¨ āĻĒā§ā§°āĻžāĻ¯āĻŧ 588 NāĨ¤)

  • On the Moon, his weight becomes about 98 N. (āĻšāĻ¨ā§āĻĻā§ā§°āĻ¤ āĻ¤ā§‡āĻ“āĻā§° āĻ“āĻœāĻ¨ āĻĒā§ā§°āĻžāĻ¯āĻŧ 98 N āĻšāĻ¯āĻŧāĨ¤)

  • But his mass remains 60 kg. (āĻ•āĻŋāĻ¨ā§āĻ¤ā§ āĻ¤ā§‡āĻ“āĻā§° āĻ­ā§° 60 kg-āĻ‡ āĻĨāĻžāĻ•ā§‡āĨ¤)


Note:



  • Mass = Amount of Matter → āĻ­ā§° = āĻĒāĻĻāĻžā§°ā§āĻĨā§° āĻĒā§°āĻŋāĻŽāĻžāĻŖ

  • Weight = Gravitational Force → āĻ“āĻœāĻ¨ = āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖāĻœāĻ¨āĻŋāĻ¤ āĻŦāĻ˛

  • Mass → kg → āĻ­ā§° → kg

  • Weight → N → āĻ“āĻœāĻ¨ → N

  • Mass remains same everywhere → āĻ­ā§° āĻ¸āĻ•āĻ˛ā§‹ āĻ āĻžāĻ‡āĻ¤ā§‡ āĻāĻ•ā§‡ āĻĨāĻžāĻ•ā§‡

  • Weight changes with gravity → āĻ“āĻœāĻ¨ āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ āĻ…āĻ¨ā§āĻ¸ā§°āĻŋ āĻ¸āĻ˛āĻ¨āĻŋ āĻšāĻ¯āĻŧ

  • Weight = Mass × Gravity (W = mg) → āĻ“āĻœāĻ¨ = āĻ­ā§° × āĻŽāĻšāĻžāĻ•ā§°ā§āĻˇāĻŖ (W = mg)