the energy which absorved in the object is called internal energy
Internal energy is defined as energy associated with the random, disordered motion of the molecules.
No.Thermal energy refers to the amount of heat energy a mass holds.Temperature refers to how hot a mass is.* They are related but they are not the same. If the temperature of a mass is increased, the thermal energy of that mass will also increase.AnswerThe term, 'thermal energy', is obsolete, having been replaced with the term, 'internal energy'. Internal energy and temperature are linked in the sense that the higher a body's internal energy, the higher its temperature. However, internal energy also depends on the state of a body. For example, water and ice can coexist at zero degrees Celsius, but the water will always have a higher internal energy than the ice at that temperature.These days, 'heat' is defined as energy in transit between a hotter body and a cooler body. It's NOT the same thing as internal energy.
They are the same. Temperature is a measure of "sensible" heat. Latent heat is heat which produces a change in state with no change in temperature. Sensible heat is heat that produces a change in temperature without a change of state. Heat, heat energy, and thermal energy are the same thing, it is measured in Joules, calories or British Thermal Units (btu).Example: Placing a hot object in ice (at the freezing point), the object gives up heat to the ice causing the ice to melt, the temperature of the object decreases to the temperature of the ice, the ice melts, changes state, until the object reaches the temperature of the ice and water. The heat given up from the object affected it's sensible heat (temperature), the heat absorbed by the ice changed it's state, latent heat, but not it's temperature or the temperature of the liquid water. This is an exchange of thermal energy from a high energy state to a lower energy state.Another AnswerThe term, 'thermal energy' is obsolete. It has long been replaced with the term, 'internal energy'.Internal energy and heat are different.Internal energy is the sum total of all the energies associated with the vibration of the molecules/atoms that form a body.Heat is energy in transit from a warmer body to a cooler body. Heat is closely associated with work, which is energy in transit from one form into another. The differencebetween work and heat represents the change in a body's internal energy.
If a thermodynamic process takes place at a constant temperature it is called "isothermal". A word of caution however: the internal energy of a system may not remain the same in an isothermal process if the composition or phase changes; e.g. melting ice can be an isodthermal process but there is certainly a change in internal energy when it happens.
If you mean - which has more internal energy, then water has more than the same amount (mass) of ice. Heat must be added to ice to get it to melt (turn to liquid water). Heat has to be removed from water to get to to freeze (turn to ice)
the energy which absorved in the object is called internal energy
What is the internal energy reserve in plants
Internal energy is defined as energy associated with the random, disordered motion of the molecules.
Internal energy is defined as energy associated with the random, disordered motion of the molecules.
the transfer in internal energy is also called heat
No.Thermal energy refers to the amount of heat energy a mass holds.Temperature refers to how hot a mass is.* They are related but they are not the same. If the temperature of a mass is increased, the thermal energy of that mass will also increase.AnswerThe term, 'thermal energy', is obsolete, having been replaced with the term, 'internal energy'. Internal energy and temperature are linked in the sense that the higher a body's internal energy, the higher its temperature. However, internal energy also depends on the state of a body. For example, water and ice can coexist at zero degrees Celsius, but the water will always have a higher internal energy than the ice at that temperature.These days, 'heat' is defined as energy in transit between a hotter body and a cooler body. It's NOT the same thing as internal energy.
The internal near rhyme in "16 steps to the ice house" is the repetition of the "i" sound in the words "steps" and "ice." This creates a subtle and internal rhyme scheme within the title.
They are the same. Temperature is a measure of "sensible" heat. Latent heat is heat which produces a change in state with no change in temperature. Sensible heat is heat that produces a change in temperature without a change of state. Heat, heat energy, and thermal energy are the same thing, it is measured in Joules, calories or British Thermal Units (btu).Example: Placing a hot object in ice (at the freezing point), the object gives up heat to the ice causing the ice to melt, the temperature of the object decreases to the temperature of the ice, the ice melts, changes state, until the object reaches the temperature of the ice and water. The heat given up from the object affected it's sensible heat (temperature), the heat absorbed by the ice changed it's state, latent heat, but not it's temperature or the temperature of the liquid water. This is an exchange of thermal energy from a high energy state to a lower energy state.Another AnswerThe term, 'thermal energy' is obsolete. It has long been replaced with the term, 'internal energy'.Internal energy and heat are different.Internal energy is the sum total of all the energies associated with the vibration of the molecules/atoms that form a body.Heat is energy in transit from a warmer body to a cooler body. Heat is closely associated with work, which is energy in transit from one form into another. The differencebetween work and heat represents the change in a body's internal energy.
Yes, internal energy is a thermodynamic function or state function,
If a thermodynamic process takes place at a constant temperature it is called "isothermal". A word of caution however: the internal energy of a system may not remain the same in an isothermal process if the composition or phase changes; e.g. melting ice can be an isodthermal process but there is certainly a change in internal energy when it happens.
In an internal combustion engine, the provided energy is chemical energy. By means of combustion it is transformed into heat energy. This heat energy is transformed in to motion/kinetic energy in an internal combustion engine.