voltage
The amount of energy in an electric charge is measured in Joules and is calculated by the formula E = QV, where E is the energy, Q is the charge, and V is the voltage. The energy of a charge is proportional to the amount of charge and the voltage it is subjected to.
Electrical potential energy depends on the amount of charge involved, the voltage across the system, and the distance between the charged objects. These factors determine the ability of the system to do work on a charge.
The amount of energy released from a fuel depends on its chemical composition, specifically the types and amounts of carbon, hydrogen, and other elements it contains. The energy released is a result of the chemical reactions that occur when the fuel is burned or reacted with oxygen.
The amount of potential energy per unit charge that a static charge has is equivalent to the electric potential at that point. For electric current, the potential energy per unit charge can be calculated by multiplying the electric potential difference across the circuit by the amount of charge.
The unit that measures the amount of energy released by nutrients is the calorie.
The amount of energy in an electric charge is measured in Joules and is calculated by the formula E = QV, where E is the energy, Q is the charge, and V is the voltage. The energy of a charge is proportional to the amount of charge and the voltage it is subjected to.
Electrical potential energy depends on the amount of charge involved, the voltage across the system, and the distance between the charged objects. These factors determine the ability of the system to do work on a charge.
zero. Energy is the product of charge and voltage, E=ev. No voltage means no energy in charge.
zero. Energy is the product of charge and voltage, E=ev. No voltage means no energy in charge.
zero. Energy is the product of charge and voltage, E=ev. No voltage means no energy in charge.
The amount of energy released from a fuel depends on its chemical composition, specifically the types and amounts of carbon, hydrogen, and other elements it contains. The energy released is a result of the chemical reactions that occur when the fuel is burned or reacted with oxygen.
Yes, thermal energy does depend on the amount of substance. The more mass a substance has, the more thermal energy it can store. This is because thermal energy is related to the internal energy of a substance, which increases with the amount of substance present.
The amount of potential energy per unit charge that a static charge has is equivalent to the electric potential at that point. For electric current, the potential energy per unit charge can be calculated by multiplying the electric potential difference across the circuit by the amount of charge.
heat capacity
Depends on the amount of the electric charge and on which place it is stored. Two clouds with a big amount of a potential electric charge, one positive and the other negative, will produce a huge amount of energy represented by a lightning bolt.
The unit that measures the amount of energy released by nutrients is the calorie.
it depends