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Kinetic energy of 35 J and a mass of 34 kg, how fast is the object moving? *

User Cero
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1 Answer

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KINETIC ENERGY

Problem:

» Kinetic energy of 35 J and a mass of 34 kg, how fast is the object moving?

Answer:


  • \color{hotpink}\tt1.435 \: m/s \\

— — — — — — — — — —

Formula:

To calculate the velocity of a kinetic energy, we can use formula


  • \underline{ \boxed{ \tt v = ( √(KE) )/( (1)/(2) * m) }}

where,

  • v is the velocity in m/s
  • KE is the kinetic energy in J (joules)
  • m is the mass in kg

Based on the problem, the givens are:

  • KE (Kinetic energy) = 35 J
  • m (mass) = 34 kg
  • v (velocity) = ? (unknown)

Solution:

To get the velocity, substitute the givens in the formula above then solve.


  • \tt v = ( √(KE) )/( (1)/(2) * m) \\


  • \tt v = ( √(35) )/( (1)/(2) * 34) \\


  • \tt v = ( √(35) )/(17) \\


  • \tt v = √(v = 2.0588235294118)


  • \tt v = \underline{ \boxed{\blue{\tt1.435 \: m/s}}}

Therefore, the velocity is 1.435 m/s.

User Soroosh Khodami
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