Water is created in the chemical reaction of gasoline 'oxidizing' (burning).
The answer is heat engine.
When gasoline is burned in an engine, it causes the pistons to go up and down. The pistons then turn the cam shaft which turns the transmission and drive shaft. The drive shaft turns the wheels after the car is put into gear.
energy required to lift up 10kg=10x9.81x4=392.4 joule. enegy produced by the engine=500 joule efficiency=392.4/500=78.48%
Efficiency=Useful energy output divided by the energy input. i.e. 100 J is the energy input and you get 5 J light energy from a lamp, the waste energy would be 5 J.
Momentum created by tiny explosions in a combustion engine oppose drag. Potential energy stored in jet fuel or gasoline turns into kinetic energy when a fuel injector sprays the pot. energy raw material over a spark. These explosions are harnessed in an engine to either spin a turbine or move heavy pistons up and down. That is it.... drag, friction and gravity ALL work to slow down an object in motion.
A combustion engine converts chemical energy in gasoline to mechanical energy in the engine.
In a gasoline engine, the correct energy conversion sequence is as follows: chemical energy in gasoline is converted to thermal energy through combustion in the engine cylinders, which then creates mechanical energy to drive the car via the pistons and crankshaft.
In a gasoline engine, chemical energy from burning gasoline is converted into mechanical energy as the engine's pistons move up and down. This mechanical energy is then used to power the vehicle and overcome friction and other forces.
Nothing "creates" energy. The chemical energy in gasoline can be converted to electrical energy by burning the gasoline in an internal combustion engine that's connected to a generator.
When a car is driven, the chemical energy in gasoline is converted into mechanical energy by the engine. The combustion of gasoline in the engine produces heat, which is then converted into kinetic energy that propels the vehicle forward.
Chemical Energy into Mechanical Energy
When gasoline is burnt in an engine, the chemical energy stored in the gasoline is converted into thermal energy (heat) through combustion. The thermal energy produced is then converted into mechanical energy to power the vehicle's movement. Some energy is also lost as waste heat during this conversion process.
An automobile engine converts chemical energy from fuel (such as gasoline) into mechanical energy through combustion. This mechanical energy is used to power the vehicle and drive the wheels.
Gasoline is a form of chemical potential energy. When gasoline is burned in an engine, it is converted into thermal energy (heat) and mechanical energy (movement) to power the vehicle.
The mechanical energy from the engine (with help from electrical energy from the battery), turns the potiential energy of gasoline/petrol into kinetic energy.
Yes, gasoline is a form of thermal energy because it can be burned to produce heat. When gasoline is combusted in an engine, the heat energy is converted into mechanical energy to power the vehicle.
Chemical that changes to heat that changes to mechanical.