Final answer:
The amount of mass converted into energy in the Tarapur nuclear power plant can be calculated using Einstein's equation E = mc^2 and the power output of the plant. The mass converted into energy per day is obtained by dividing the energy produced by the speed of light squared.
Step-by-step explanation:
The amount of mass that is converted into energy in a nuclear power plant can be calculated using Einstein's famous equation E = mc^2, where E is the energy, m is the mass, and c is the speed of light. In this case, we know that the power output of the Tarapur nuclear power plant is 107 kW. We can convert this power to energy using the formula E = Pt, where P is the power and t is the time.
Now, we need to convert the energy into mass. Since the speed of light is a very large number, even a small amount of mass can yield a large amount of energy. To convert energy into mass, we divide the energy by the speed of light squared: m = E/c^2.
Let's plug in the values. The power output of the Tarapur nuclear power plant is 107 kW. Assuming it operates for 24 hours (1 day), we can calculate the energy produced: E = (107 kW) * (24 hours).
Once we have the energy, we can divide it by the speed of light squared (c^2) to find the mass that is converted into energy per day.
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