the specific internal energy of a fluid is 200 cal/g .if the fluid leaves a system at a flow rate of 5 g/min ,at what rate does it transport internal energy out of the system?
To calculate the rate at which the fluid transports internal energy out of the system, you need to find the product of the specific internal energy and the flow rate.
Given:
Specific internal energy of the fluid = 200 cal/g
Flow rate of the fluid = 5 g/min
To find the rate at which the fluid transports internal energy out of the system, multiply the specific internal energy by the flow rate:
Rate of energy transport = Specific internal energy × Flow rate
Rate of energy transport = 200 cal/g × 5 g/min
Rate of energy transport = 1000 cal/min
Therefore, the fluid transports internal energy out of the system at a rate of 1000 cal/min.
To find the rate at which the fluid transports internal energy out of the system, we need to calculate the energy flow rate. The energy flow rate can be determined by multiplying the specific internal energy of the fluid by the flow rate of the fluid.
Given:
Specific internal energy of the fluid = 200 cal/g
Flow rate of the fluid = 5 g/min
To find the rate at which the fluid transports internal energy out of the system, we can use the following equation:
Energy flow rate = Specific internal energy of the fluid × Flow rate of the fluid
Plugging in the values:
Energy flow rate = 200 cal/g × 5 g/min
Now we can calculate the energy flow rate:
Energy flow rate = 1000 cal/min
Therefore, the fluid transports internal energy out of the system at a rate of 1000 cal/min.