Heat
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The temperature at which an object's energy is minimal is called absolute zero. It is the lowest possible temperature where particle motion ceases and entropy is at its minimum. At this temperature, the object possesses no thermal energy.
No,two objects at different temperature does not have the same thermal energy because both objects have different temperature .object with high temperature has more thermal energy and the object with low temperature has less thermal energy.
The temperature of the two objects must be the same in order to stop the transfer of energy between them. Energy will transfer as long as there is a temperature difference between the objects.
Hot objects emit more energy than cold objects. This is because the energy emitted by an object is directly related to its temperature: the higher the temperature, the higher the energy emitted. Cold objects emit less energy because they have lower temperatures.
Yes, absolute zero is the lowest possible temperature where a substance has minimal thermal energy. At absolute zero, the atoms or molecules in a substance stop moving and have no kinetic energy. This temperature is equivalent to 0 Kelvin or -273.15 degrees Celsius.
The temperature at which an object's energy is minimal is called absolute zero. It is the lowest possible temperature where particle motion ceases and entropy is at its minimum. At this temperature, the object possesses no thermal energy.
No,two objects at different temperature does not have the same thermal energy because both objects have different temperature .object with high temperature has more thermal energy and the object with low temperature has less thermal energy.
What determines an objects temperature. The higher the temperature the faster the particles move, the more Kinetic Energy they have and the greater the objects Thermal energy=) Haha I am superr dupper dumb
The temperature of the two objects must be the same in order to stop the transfer of energy between them. Energy will transfer as long as there is a temperature difference between the objects.
Objects change temperature through the transfer of heat energy. This can occur through conduction, convection, or radiation. When an object gains heat energy, its temperature increases, and when it loses heat energy, its temperature decreases.
Hot objects emit more energy than cold objects. This is because the energy emitted by an object is directly related to its temperature: the higher the temperature, the higher the energy emitted. Cold objects emit less energy because they have lower temperatures.
Yes, absolute zero is the lowest possible temperature where a substance has minimal thermal energy. At absolute zero, the atoms or molecules in a substance stop moving and have no kinetic energy. This temperature is equivalent to 0 Kelvin or -273.15 degrees Celsius.
The composition of objects can affect the final temperature through their specific heat capacities, which determine how much heat energy is needed to raise their temperature. Objects with higher specific heat capacities will require more energy to increase their temperature compared to objects with lower specific heat capacities. Additionally, the mass of the objects will also play a role in determining the final temperature, as objects with higher masses will require more heat energy to increase their temperature.
No, thermal energy flows from hotter objects to cooler objects as heat always moves from areas of higher temperature to lower temperature, seeking equilibrium.
No, energy does not transfer when both objects are at thermal equilibrium because there is no temperature difference between them. At thermal equilibrium, the objects are at the same temperature, so there is no net flow of heat energy between them.
Yes, even cold objects have heat energy. Heat energy is a form of energy that is present in all objects, with colder objects having less heat energy compared to hotter objects. This energy is related to the temperature of an object, with colder objects having lower temperatures and less heat energy.
The energy transferred between objects due to a difference in temperature is called heat. Heat flows from objects at higher temperatures to objects at lower temperatures until thermal equilibrium is reached.