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Any amount of energy you like greater than 0; the larger the amount of energy you give it, the larger the temperature increase will be. Perhaps you should specify by how much temperature you want the gallon of water to increase and you may get a more specific answer.
Things only move from one phase to another by physical means. If energy is added (like increasing the temperature or increasing pressure) or if energy is taken away (like freezing something or decreasing pressure) you have created a physical change. =)) Hope it can help!
Yes. Mass is one of the variables (mass, gravity and height) for which gravitational potential energy is the product (meaning the multiplication of), so increasing mass will increase the gravitational potential energy in direct proportion.
The gas constant is a number. It is measured in terms of energy per temperature increase per mole. It has no specific volume.
An increase in temperature causes thermal expansion which increases the volume. This cause a decrease in density. Except in the case of water between 0 and 4 degrees C, where increased temperature results in a contraction and so increased density.
Increase
because the kinetic energy of electron increase with increase in temperature. this increase in kinetic energy increase drift velocity
The kinetic energy will increase
The Kinetic energy will increase
increasing energy
The kinetic energy will increase
Temperature is directly proportional to kinetic energy (potential energy).eg. increase the temperature, you increase the kinetic energy of the molecules, hence you're increasing the potential energy of them.
It's more like temperature increases with increasing kinetic energy. In science, temperature is a measure of the average kinetic energy of a system. As a substance is heated it's particles move faster, increasing their kinetic energy, and this causes a rise in temperature.
An increase of temperature increase the rate of a reaction.
increasing energy Work increases the temperature of a substance due to friction.
The reaction rate is dependent on temperature (increasing the temperature the reaction rate increase) and activation energy.
The reaction rate is dependent on temperature (increasing the temperature the reaction rate increase) and activation energy.