An isobaric process is one occurring at constant pressure (we are talking about gases). So the specific heat to use is Cp, the specific heat of the gas at constant pressure. To get the total heat energy you obviously need to also know the quantity of the gas involved, and the change in temperature.
It depends upon the wattage of the heater.
Technically, no process "creates" energy. Energy cannot be created, or destroyed for that matter. The total amount of energy in the Universe remains constant. It is possible to convert one type of energy to another, though.
Energy isn't conserved in a process where there's a trade between mass and energy according to E = m c2 . When both mass and energy are tallied, the total is conserved.
You can assume for this problem that "total energy" refers to "total mechanical energy", i.e., potential energy + kinetic energy.
Kinetic energy is the measure of the total energy of a substance.
It depends upon the wattage of the heater.
The total amount of energy in any process will neither increase nor decrease.
vague question. Efficiency in terms of energy = useful energy/total energy x 100 vague question. Efficiency in terms of energy = useful energy/total energy x 100
efficiencyThe ratio of useful energy to total input energy is called efficiency. It refers to the percentage of the work input that is converted to work output.
"Law of conservation" means that the total amount won't change.
No, it releases energy to it's surroundings!
Technically, no process "creates" energy. Energy cannot be created, or destroyed for that matter. The total amount of energy in the Universe remains constant. It is possible to convert one type of energy to another, though.
"Conservation" means that the total amount of energy doesn't change.
energy transferred = charge x potential difference.
The average US diet consists 45% of carbohydrate calories.
For one, it tells you that all attempts to build a perpetuum mobile (of the first type) are doomed to failure!Conservation of energy can also be used to simplify many calculations - by simply assuming that the total energy at the end of a process will be equal to the total energy at the beginning of a process.
Total amount of energy and mass in process must be conserved it may change to another type of energy but can not just disappear.