Coal was used because there was pressure in a tube that moves a piston. The coal was the pressure and and moved a piston that was pushed and as is did this, it pushed the wheel forwards because a stick is attached to the wheel and the momentum carries it through but also opens a different valve because as the wheel is turning, a smaller circle is connected to it attached to another stick like this. But this is not centred so that when is turns it pushes a stick that covers the hole that steam on a second valve doesn't balanse the pressure so it closes that so the steam can pressure. This valve moves back and forth so it shuts one valve and opens the other.
++++
Sighs... Would you like me to untangle that mess so that perhaps more than those 5 counted ones might understand better and even learn the correct names for the parts, not words like "stick"??
'
Coal or any other suitable fuel is burnt to provide the heat to boil water into steam which is then sent, via a control-valve, to the cylinder(s). Within the cylinder is a piston attached to its piston-rod, which emerges from one end of the cylinder, through a special sealing "gland" to keep the steam in, and joins the connecting-rod that transmits the force given by the steam's pressure on the piston, to the crankshaft.
'
The joint between piston-rod and connecting-rod is a pivot on a sliding block called the "crosshead", to allow the connecting-rod its swing as the crank rotates while the piston-rod of course can only reciprocate.
'
A mechanism driven by the rotating crankshaft operates a valve or valves on the cylinder to allow the steam from the boiler into, and the used, exhaust steam out from, each side of the piston alternately.
In a steam engine, heat is used to boil water and produce steam under pressure. The steam is then directed into a piston chamber, where it expands and pushes a piston, converting the heat energy into mechanical work. The movement of the piston is then used to drive a crankshaft, which can power machinery or generate electricity.
The early steam engine worked by heating water in a boiler until it turned into steam, which then expanded and created pressure that drove a piston. The movement of the piston was then used to power machinery or a locomotive.
A heat engine, such as a steam engine or an internal combustion engine, transforms heat energy into movement energy. Heat is used to create pressure, which drives a piston or turbine, producing mechanical work.
Thermal energy can be converted into mechanical energy through the use of a heat engine, such as a steam engine or internal combustion engine. These engines utilize the expansion of heated gases to drive a piston or turbine, which generates mechanical work. This process is governed by the principles of thermodynamics.
A device that converts thermal energy into work is called a heat engine. Heat engines take thermal energy from a heat source, such as combustion or nuclear reactions, and convert it into mechanical work through processes like expansion of gases or steam. Examples include steam engines and internal combustion engines.
Over 9000
Coal is burnt to produce heat to make water boil. The steam drives a turbine which turns a generator to make electricity.
Water is heated to produce steam. The steam is used to power the engine. The power from the engine does the work or powers other instruments that do the work.
Coal is burned to heat water and produce steam in a boiler. The steam then drives a turbine connected to a generator, which produces electricity. This process is known as thermal power generation.
Coal or wood
In a coal-fired power plant, coal is burned to produce heat, which is used to boil water and produce steam. The steam drives a turbine connected to a generator, which generates electricity. The electricity is then transmitted through power lines to homes and businesses for use.
Water is heated to produce steam. The steam is used to power the engine. The power from the engine does the work or powers other instruments that do the work.
Steam boilers work by boiling water to generate steam. The steam then is used to heat the engine.
the steam engine was quicker and stronger than hoses
A steam engine is a heat engine. A steam engine uses boiling water to produce mechanical work. It uses the steam from the boiling water as its working fluid.
steam engine was quicker than horses and stronger than horses
steam engine was quicker than horses and stronger than horses