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Two bodies at the same heat can have different temperatures due to differences in mass, material composition, or specific heat capacity. These factors affect how much heat energy is required to raise the temperature of each body. Additionally, the amount of heat transferred between the bodies can also impact their final temperatures.
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What is the transfer of thermal energy between two bodies at different temperatures known as?
The transfer of thermal energy between two bodies at different temperatures is known as heat transfer.
Does a hot object contain thermal energy, or does it contain heat?
A hot object contains thermal energy, which is the total energy of its particles. Heat is the transfer of thermal energy between objects at different temperatures.
What happens when two bodies of matter at different temperatures are brought together?
It depends on what their heat capacities are and the difference in temperature is. Normally, there will be a net energy flow from the object with higher T to the one with lower, causing the first' T to lower and the second's to rise.
Can two body at same temperature have different heat?
Yes, two bodies at the same temperature can have different amounts of heat because heat is a measure of the total thermal energy contained within an object. The amount of heat a body has depends on its mass and specific heat capacity, regardless of its temperature.
The energy that flows between objects with different temperatures is called?
Heat
What is the transfer of thermal energy between two bodies at different temperatures known as?
The transfer of thermal energy between two bodies at different temperatures is known as heat transfer.
Does a hot object contain thermal energy, or does it contain heat?
A hot object contains thermal energy, which is the total energy of its particles. Heat is the transfer of thermal energy between objects at different temperatures.
How does the heat of formation vary at different temperatures?
The heat of formation changes with temperature. At higher temperatures, the heat of formation tends to increase, while at lower temperatures, it tends to decrease.
What happens when two bodies of matter at different temperatures are brought together?
It depends on what their heat capacities are and the difference in temperature is. Normally, there will be a net energy flow from the object with higher T to the one with lower, causing the first' T to lower and the second's to rise.
Can two body at same temperature have different heat?
Yes, two bodies at the same temperature can have different amounts of heat because heat is a measure of the total thermal energy contained within an object. The amount of heat a body has depends on its mass and specific heat capacity, regardless of its temperature.
The energy that flows between objects with different temperatures is called?
Heat
Why do different surfaces have different temperatures?
Why do they have different surface temperature
What two things affect surface zone temperatures in most regions?
The two main factors that affect surface zone temperatures in most regions are latitude (distance from the equator) and proximity to large bodies of water. Latitude determines the amount of solar energy received, while water bodies can moderate temperatures through their high heat capacity and ability to absorb and release heat.
What is the energy that flows between objects with different temperatures called?
The energy that flows between objects with different temperatures is called heat. Heat will naturally transfer from a warmer object to a cooler object until thermal equilibrium is reached.
What is the energy that flows between objects that have different temperatures?
The energy that flows between objects with different temperatures is called heat. Heat transfer occurs from a region of higher temperature to a region of lower temperature in order to reach thermal equilibrium.
What is the maximum work obtainable from two bodies at temperatures T1 and T2 . i need derivation. pls help you out?
To obtain the maximum work/time (power) from two bodies at different temperatures, you have to put an "Ideal" Heat Engine between the two bodies. The Heat Engine works with the "Carnot Thermodynamic Cycle". The Heat Efficiency of the Carnot Cycle Engine is called "Carnot Efficiency" and it only depends on the Absolute Temperature of the two bodies. Absolute Temperature also known as Thermodynamic Temperature will be in Rankine degrees, oR, (U.S.C.S.), or Kelvins (I.S.). The Carnot Heat efficiency is given by; eff (%) = [1 - TL/TH] x 100 where TH and TL are the High and Low Thermodynamic Temperatures of the bodies. So if a given Carnot Efficiency turns out be of 35%, this means that from the heat given by the High Temperature body, 35% is converted to work and the rest is dumped to the Low Temperature body.
What does heat energy mean?
Hot bodies contain thermal energy, this is measured in calories or BTU
