Tag: law of conservation of energy

Because when body falls from a height potential energy decreases and kinetic energy progressively increases. During this total mechanical energy remains conserved.

Potential energy decreases and Kinetic energy increases when the object is falling but the total mechanical energy remains constant at every instant.

It can be zero when all forces cancel out each other i.e. net force acting on object is zero.

When a pendulum oscillates, it comes to rest after sometime because energy lost by pendulum to overcome friction is gained by surrounding. Hence total energy of pendulum and surrounding system remains conserved.

$P=500W=0.50kW$

$t=10h$

$W=Power $\times$Time$

$=0.50 $\times$10 = 5kWh$

For 4 devices$ = 4 \times 5 = 20$ units

Machines require input work to be done on them, which increases the potential, or kinetic energy, or both of the system.

If we use solar energy or chemical energy it would mean input of additional energy , which is restricted in this case.

We know that the potential energy is dependent on the height. Let us consider the tennis ball dropped from height $H$ has P.E of $mgH$.

Then $mgh$ will be the potential energy while the ball rebounds.

Here,$H = 2m$ and $h = 1.5m$

Then, loss of energy  $ = \dfrac{mg(H-h)}{mgH}$

$=\dfrac { H-h }{ H } =\dfrac { 2-1.5 }{ 2 } =\dfrac { 1 }{ 4 } $

Therefore, fraction of energy lost in the impact $ = \dfrac { 1 }{ 4 } $

The law of conservation of energy is valid at any instant & in all circumstances.