Water falls from a height of into a pool. Calculate the rise in temperature of the water assuming no heat dissipation from the water in the pool. (Take , specific heat of water = )
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Water falls from a height of into a pool. Calculate the rise in temperature of the water assuming no heat dissipation from the water in the pool. (Take , specific heat of water = )
Correct answer:A
Standard Method
Given: Water falls through a height of . Acceleration due to gravity is and specific heat capacity of water is .
Find: Rise in temperature of the water.
The potential energy lost by the falling water is converted entirely into thermal energy.
Cancel from both sides:
So,
Substitute the given values:
Rounding to two decimal places,
Therefore, the rise in temperature of the water is . The correct option is A.
Energy per Unit Mass Approach
Given: Take of water falling from a height of .
Find: Temperature rise produced by conversion of gravitational potential energy into heat.
For of water, the potential energy lost is
This energy appears as heat gained by the water:
Using ,
Hence, the required rise in temperature is approximately .
Using kinetic energy at impact separately and not converting it into heat is incorrect here, because the question assumes no heat dissipation and complete conversion of lost potential energy into thermal energy. Directly use .
Forgetting to cancel the mass from both sides can make the calculation look dependent on the amount of water. The temperature rise is independent of mass here, so simplify to first.
Using an incorrect specific heat unit or omitting units for can lead to dimensional inconsistency. Use so that the resulting temperature change comes in .
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