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Question
An electric heater supplies heat to a system at a rate of 100W. If system performs work at a rate of 75 joules per second. At what rate is the internal energy increasing?
An electric heater supplies heat to a system at a rate of 100W. If system performs work at a rate of 75 joules per second. At what rate is the internal energy increasing?
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Solution
Step 1: Given data
- Total energy rate supplied by the heater is
- Rate of Work done by the system is
Step 2: First law of thermodynamics
- The first law of thermodynamics states that whenever work is transferred into heat or conversely heat into work, the quantity of work is mechanically equivalent to the quantity of heat.
- The mathematical form of the first law is, , where, Q is the heat absorbed by the system, U is the increase in internal energy and W is the external work done by the system.
Step 3: Calculation of increasing internal energy
As we know,
or,
Therefore, the internal energy will increase at a rate
Step 1: Given data
- Total energy rate supplied by the heater is
- Rate of Work done by the system is
Step 2: First law of thermodynamics
- The first law of thermodynamics states that whenever work is transferred into heat or conversely heat into work, the quantity of work is mechanically equivalent to the quantity of heat.
- The mathematical form of the first law is, , where, Q is the heat absorbed by the system, U is the increase in internal energy and W is the external work done by the system.
Step 3: Calculation of increasing internal energy
As we know,
or,
Therefore, the internal energy will increase at a rate
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