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What is the work done by the system according to the sign convention?
The work done by the system is positive if the system does work on its surroundings, and negative if work is done on the system by the surroundings.
Is the work done by the system is considered as positive or on the system is considered as positive?
Work done by the system is considered as PositiveWork done on the system is considered as Negative
What is the relationship between the work done on the system and the work done by the system in a thermodynamic process?
In a thermodynamic process, the work done on the system is equal and opposite to the work done by the system. This is based on the principle of conservation of energy, where the total work done in a closed system remains constant.
What is the relationship between the work done on a system and the work done by a system in a thermodynamic process?
In a thermodynamic process, the work done on a system is equal and opposite to the work done by the system. This is known as the principle of conservation of energy.
Does the work done on a system necessarily change the system's kinetic energy?
Yes, the work done on a system can change the system's kinetic energy.
What is the work done by the system according to the sign convention?
The work done by the system is positive if the system does work on its surroundings, and negative if work is done on the system by the surroundings.
Is the work done by the system is considered as positive or on the system is considered as positive?
Work done by the system is considered as PositiveWork done on the system is considered as Negative
What is the relationship between the work done on the system and the work done by the system in a thermodynamic process?
In a thermodynamic process, the work done on the system is equal and opposite to the work done by the system. This is based on the principle of conservation of energy, where the total work done in a closed system remains constant.
What is the relationship between the work done on a system and the work done by a system in a thermodynamic process?
In a thermodynamic process, the work done on a system is equal and opposite to the work done by the system. This is known as the principle of conservation of energy.
How do you determine a work done is positive sign or negative sign?
If work is done on the system then it has a negative sign. If work is done by the system then it has a positive sign.
Is the work done on a system positive or negative?
The work done on a system is positive when energy is added to the system, and negative when energy is removed from the system.
Does the work done on a system necessarily change the system's kinetic energy?
Yes, the work done on a system can change the system's kinetic energy.
How can you find the initial velocity form the work done on a system?
To find the initial velocity from the work done on a system, you can use the work-energy principle. The work done on the system is equal to the change in kinetic energy of the system. By equating the work done to the change in kinetic energy and solving for the initial velocity, you can find the initial velocity of the system.
What is the relationship between the work done by the system and the win?
The relationship between the work done by the system and the win is that the work done by the system contributes to achieving the win. The effort and performance of the system directly impact the outcome or success of the win.
What is the significance of the work done on the system in relation to the sign convention?
The significance of the work done on the system in relation to the sign convention is that it helps determine whether work is being done on the system (positive work) or by the system (negative work). This understanding is crucial in analyzing the energy transfer within the system and its surroundings.
When work is done by a system an no heat added to it the temperature of the system?
When work is done by a system with no heat added, the temperature of the system generally decreases. This is due to the fact that work done by the system often involves the system losing energy in the form of work, causing its internal energy and therefore its temperature to decrease.
Can work done on a system decrease its thermal energy?
Yes. As an example: if you define a refrigerator as your system, the work done on the system causes heat to be expelled from the system to the surroundings. The net heat expelled will be equal to the work input plus the decrease in its thermal energy.
