Physics, asked by Anonymous, 3 months ago

derive the formula for kinetic energy of a particle having mass m and velocity v using dimensional analysis?

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Answered by Aashastha

Answer:

Kinetic energy can be defined as the energy possessed by the body by virtue of its motion. KE = ½mv² = M × (LT-²)² = ML²T-². Dimensional Formula of Kinetic energy= ML²T-². SI unit of Kinetic energy is Joule (J).

Answered by adityarajput66

Answer:

$\large{\mathrm{\red{\overbrace{\underbrace{\boxed{\boxed{\overbrace{\underbrace{\bigstar{DERIVATION\:\:OF{\bigstar}}}}}}}}}}}$

$\large{\mathrm{\red{\overbrace{\underbrace{\boxed{\boxed{\overbrace{\underbrace{\bigstar{KINETIC \:\:ENERGY{\bigstar}}}}}}}}}}}$

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derive the formula for kinetic energy of a particle having mass m and velocity v using dimensional analysis?​

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derive the formula for kinetic energy of a particle having mass m and velocity v using dimensional analysis?