It's exactly the same size as a water molecule or an ice molecule.
The power output of a steam turbine depends on various factors such as turbine size, steam pressure and temperature, and efficiency. Large steam turbines in power plants can generate hundreds of megawatts of electricity, while smaller turbines in industrial settings may produce tens to hundreds of kilowatts.
When heat is applied to an ice cube, the molecules gain energy and start vibrating more rapidly, causing the ice to melt and the molecules to spread apart. As more heat is added, the molecules gain enough energy to break free from each other, turning the liquid water into steam. So, the size of the molecules increases as the ice cube is transformed into steam.
The maximum amount of torque that a steam engine can produce depends on its size and design, but it can typically range from a few hundred foot-pounds to several thousand foot-pounds.
It varies depending on the size, age, and intended purpose of the engine, as well as the technology available. Some small steam locomotives run at 75 psi, whereas some of the largest and most powerful engines can run at over 300 psi.
The amount of electricity generated by a steam turbine in one second depends on several factors, including the size and efficiency of the turbine, the pressure and temperature of the steam, and the overall power output of the turbine. On average, a large steam turbine can produce anywhere from 1 to 5 megawatts of electricity per second. However, it is important to note that this is a general estimate and actual output can vary significantly based on specific operating conditions and design parameters.
When you are at the steam store you can select the game and it will tell you its size.
Yes in a metter of speaking. You know that steam is water that you put a lot of heat into?, well water takes in that thermal energy and changes phase with it. Water is made up of atoms, two hydrogens and an oxygen for each molecule, that's where the formula H2O comes from. So if steam is just water that is really hot in the gas phase and water is a molecule made from atoms, steam must also be a molecule made from atoms.
A butane molecule has a size of approximately 4 angstroms (0.4 nanometers) in length.
one of the early model steam trains
The radius of a glycerol molecule is about 4.35 angstroms.
Look up Half Life anthology at the steam store and it will tell you the size of it. :)
While some forms of energy can be considered as either particle or wave, steam is not one of those. The energy of steam comes from it expansion. There is no steam energy particle.
Because steam is a gaseous phase of water.
because you dont change the molecule. H2O IS THE SAME MOLECULE as water, ice or steam
Molecule size changes of the ozone. When it is being depleted the most.
The size of a urea molecule is approximately 2-3 angstroms in diameter.
designed a steam engine that was 40% more efficient, half the size, and significantly cheaper than standard steam engines.