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Question: Water falls from a height \(20\;m\) at a rate of \(100\;kgs^{-1}\). How many calories of heat will b...

Water falls from a height 20  m20\;m at a rate of 100  kgs1100\;kgs^{-1}. How many calories of heat will be produced per second on striking the earth? Assume that the whole energy is converted to heat.

Explanation

Solution

Water at a height possesses a potential energy, which gets converted to kinetic energy due to the falling motion of water, following which it strikes the earth to generate heat. Given the assumption in the question, calculate the energy in joules, and use the appropriate conversion to obtain the same in calories.

Formula Used:
Potential energy PE=mghPE = mgh
1  calorie=4.184  joules1\;calorie = 4.184\;joules

Complete Step-by-Step Solution:
We are given that water falls from a height of h=20  mh=20\;m. The water possesses a potential energy by virtue of the height from which it falls. The water falls under the influence of the acceleration due to gravity g=9.8  ms2g = 9.8\;ms^{-2}, and we are given that this fluidic motion is at a rate of m=100  kgs1m = 100\;kgs^{-1}.

The potential energy possessed by the water at a height can be quantized as:
PE=mgh=(100×9.8×20)  (kgs1.ms2.m)=19600  kgm2s2.s1=19600  Js1PE = mgh = (100 \times 9.8 \times 20) \; (kgs^{-1}. ms^{-2}. m)= 19600\;kgm^2s^{-2}.s^{-1} = 19600\;Js^{-1}

Now, the water falls by converting the potential energy into kinetic energy to facilitate its vertical motion. As the water strikes the earth, usually a part of this kinetic energy gets dissipated in the form of heat. But we are given that the entire energy gets dissipated as heat, i.e.,
H=19600  JH = 19600\;J

We know the empirical relation between calories and joules is given as: 1cal=4.184  J1 cal = 4.184\;J
H=196004.184\Rightarrow H = \dfrac{19600}{4.184}
4684.5  cals1\Rightarrow 4684.5\;cals^{-1}.

Thus, the amount of heat produced per second is 4685  cal\approx 4685\;cal.

Note:
The calorie as a unit in general, is ill-defined since the energy required to raise the temperature of 1 gram of water by 11^{\circ}C is not always constant! In fact, it varies as a function of water temperature.
The amount of energy required to warm 1 gram of air-free water:
From 3.5C3.5^{\circ}C to 4.5C4.5^{\circ}C is called the 44^{\circ} calorie = 4.204  J4.204\;J
From 14.5C14.5^{\circ}C to 15.5C15.5^{\circ}C is called the 1515^{\circ} calorie = 4.1855  J4.1855\;J
From 19.5C19.5^{\circ}C to 20.520.5^{\circ}C is called the 2020^{\circ} calorie = 4.204  J4.204\;J
So the value that we have chosen for our evaluation is another type called the Thermochemical calorie.