No, energy is produced by the opposite reaction, hydrogen to helium
Hydrogen can be turned into energy through processes like fuel cells, where hydrogen combines with oxygen to produce electricity, water, and heat. Hydrogen can also be used to power internal combustion engines in hydrogen fuel vehicles, or it can be burned in a turbine or engine to generate electricity.
Answer #1: mechanical==========================Answer #2:Kinetic energy of the moving air, and heat in the motor.
wind energy comes out of a turbine and is turned into energy
When a flashlight is turned on, electrical energy is converted into light energy and heat energy. The electrical energy powers the bulb to produce light, while some electricity is lost as heat.
Grains can be turned into energy through processes like fermentation, where microorganisms break down the sugars in the grains to produce ethanol. This ethanol can then be used as a biofuel in vehicles or for generating electricity. Additionally, grains can be used to produce biogas through anaerobic digestion, where microorganisms break down organic matter in the grains to produce methane gas that can be used for heating or electricity generation.
Hydrogen undergoes nuclear fusion to form helium in a process that releases a large amount of energy. This process is the main source of energy for stars, including our Sun. The newly formed helium atom is more stable than the original hydrogen atoms.
Hydrogen is turned into helium in the fusion process that releases the Sun's energy.
The Sun is hot because in its core it is turning Hydrogen into Helium by a process called nuclear fusion. The helium is slightly less heavy then the bits of hydrogen used to make it and this difference in mass is turned into energy (light). This energy keeps the Sun hot and makes it shine.
Hydrogen is turned into helium in stars.
Hydrogen can be turned into energy through processes like fuel cells, where hydrogen combines with oxygen to produce electricity, water, and heat. Hydrogen can also be used to power internal combustion engines in hydrogen fuel vehicles, or it can be burned in a turbine or engine to generate electricity.
Because in the sun, nuclear fusion (or thermonuclear reaction) is happening, means an atom core is joined with other's atom core, making it a bigger atom and more unstable. In the sun and other stars, one hydrogen atom is joined itself with the other hydrogen atom and reacting, releasing particles, positron, neutrino and energy. The result is 2H. Then it joined itself with another 1H atom. Then the fusion reaction happens. It's repeating until the third reaction, where 3He is joining with other 3He, releasing two 1H and a 4He. In short, one Hydrogen atom join another one Hydrogen Atom and result two hydrogen atoms, Neutrino, and Positron (1H + 1H = 2H, Positron, Neutrino). This process is repeating twice (although the second time, 2H is joining 1H = 2H + 1H = 3He). Then, the Third time, where the Hydrogen atoms become Helium atoms, they join together and releasing two 1 H and 4He atoms (3He + 3He = 2x 1H, 4He). ( The fusion also the one who detonate the Hydrogen Bomb). Source: Wikipedia (see related links)
Scientists think that the universe was created by the big bang, and that energy came out of energy pockets and turned into mass ( E=MC2 ). The universe then started expanding, and heavier elements in the periodic table started to form (at first there was only Helium and Hydrogen).
Through nuclear fusion, where smaller atoms are fused together to make larger atoms under extreme pressures and temperatures. Usually hydrogen nuclei are being fused together to make helium nuclei. The total mass of the components is more than the final helium nuclei, the excess mass is turned into energy (E=MC^2). Massive amounts of energy are released through this process.
Nuclear fusion, hydrogen burns and the energy gets turned into mass
no it cant
Answer #1: mechanical==========================Answer #2:Kinetic energy of the moving air, and heat in the motor.
Nuclear energy is typically converted into electricity using nuclear reactors. The electricity generated can then be used to produce chemical energy through processes like electrolysis, where electricity is used to split water into hydrogen and oxygen, which can then be used as chemical energy sources in fuel cells or other applications.