Want this question answered?
heat engine: steam, internal combustion, turbines, etc
Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.
The energy in a car starts as electrical energy in the battery. That energy creates thermal energy in the form of a spark, which activates chemical energy in the fuel. The chemical energy converts to thermal energy which is then transformed to the mechanical energy which moves the car.
The output of every internal combustion engine is usually thought of as kinetic energy, but as a byproduct, thermal energy also is expelled as a result of the combustion of hydrocarbons. The primary fuel source. Additionally, much kinetic energy is also lost as a result of friction thereby also creating a thermal energy. So although the sources of both seem different, there would be no friction without first there being kinetic energy as a result of the combustion of hydrocarbon and oxygen.
One of the most common energy conversions involves the changing of potential energy to kinetic energy or kinetic energy to potential energy.Answer:Eventually all energy is transformed into heat.
heat engine: steam, internal combustion, turbines, etc
Chemical energy is being converted to thermal energy which is then converted to mechanical energy and finally to kinetic energy which moves the car. Kinetic energy is then converted to thermal energy in the brakes to stop the car.
Depending upon its state when measured, potential, kinetic, mechanical (electrical for a battery op), thermal...the output is 'mechanical.'
in an engine potential (gas) to thermal To kinetic
Heat And Kinetic Energy
A rocket engine.
Energy can basically be divided in two groups: thermal and nonthermal.In principle nonthermal energy can be transformed 100 % in to any other kind ofnonthermal energy or thermal energy.For the case of thermal energy only a part of it can be transformed into a nonthermal energy through a 'Heat Engine' according to thermodynamics 2nd law.Example of a nonthermal energy is mechanical energy of which potential energy ( owed to the position of a body in a gravity field, or given to a body by a spring orsomething similar), and kinetic energy of a macroscopic body ( molecules kinetic energy in gases and liquids are not included here, they are part of the body's thermal energy) belong to it.
Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.Any time an object is slowed down by friction, most of the kinetic energy is converted to thermal energy.
The energy in a car starts as electrical energy in the battery. That energy creates thermal energy in the form of a spark, which activates chemical energy in the fuel. The chemical energy converts to thermal energy which is then transformed to the mechanical energy which moves the car.
The output of every internal combustion engine is usually thought of as kinetic energy, but as a byproduct, thermal energy also is expelled as a result of the combustion of hydrocarbons. The primary fuel source. Additionally, much kinetic energy is also lost as a result of friction thereby also creating a thermal energy. So although the sources of both seem different, there would be no friction without first there being kinetic energy as a result of the combustion of hydrocarbon and oxygen.
Energy can basically be divided in two groups: thermal and nonthermal.In principle nonthermal energy can be transformed 100 % in to any other kind ofnonthermal energy or thermal energy.For the case of thermal energy only a part of it can be transformed into a nonthermal energy through a 'Heat Engine' according to thermodynamics 2nd law.Example of a nonthermal energy is mechanical energy of which potential energy ( owed to the position of a body in a gravity field, or given to a body by a spring orsomething similar), and kinetic energy of a macroscopic body ( molecules kinetic energy in gases and liquids are not included here, they are part of the body's thermal energy) belong to it.
One of the most common energy conversions involves the changing of potential energy to kinetic energy or kinetic energy to potential energy.Answer:Eventually all energy is transformed into heat.