Prove the law of conservation of energy with the help of a freely falling object
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m = mass of body
g = Acceleration due to gravity
Suppose a body is at point A initially. Then it falls freely, during the motion mechanical energy of the body is conserve.
At point A,
AC = height of object from ground
= h
Initial speed u = 0
So, P.E. = mgh
TE = P.E + K.E = mgh + 0
(TE)A = mgh ... (i)
At point B,
PE = mg (BC)
= mg (h – x) = mgh – mgx
Use kinematics equation
(TE)B = P.E. + K.E = mgh – mgx + mgx
= mgh ...(ii)
At point C,
P.E. = 0
Use kinematics equation
⇒ v 2 = 2gh
So,
(T.E.)C = K.E + P.E. = mgh +0 = mgh ...(iii)
(TE)A =(TE)B=(TE)C
Hence, the total energy of the body is conserve during free fall.
g = Acceleration due to gravity
Suppose a body is at point A initially. Then it falls freely, during the motion mechanical energy of the body is conserve.
At point A,
AC = height of object from ground
= h
Initial speed u = 0
So, P.E. = mgh
TE = P.E + K.E = mgh + 0
(TE)A = mgh ... (i)
At point B,
PE = mg (BC)
= mg (h – x) = mgh – mgx
Use kinematics equation
(TE)B = P.E. + K.E = mgh – mgx + mgx
= mgh ...(ii)
At point C,
P.E. = 0
Use kinematics equation
⇒ v 2 = 2gh
So,
(T.E.)C = K.E + P.E. = mgh +0 = mgh ...(iii)
(TE)A =(TE)B=(TE)C
Hence, the total energy of the body is conserve during free fall.
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