During the early formation of the Sun, massive amounts of hydrogen and other "space" debris were coalesced together to form a protostar [See related link]. As more and more "stuff" was collected, the pressure in the centre of the protostar increased. When it reached a temperature of about 10 million degrees kelvin, nuclear fusion started.
In nuclear fusion, hydrogen is fused into helium in a fairly inefficient rate (Something like 0.07%) giving heat off as a by product. This temperature dictates the size and colour of the Sun.
The core ultimately produces energy that escapes the core via radiation and eventually convection as it nears the surface. It does this through helium fusion, the binding of hydrogen atoms together to create helium (H+H+H+H+=He + energy). This reaction is called the proton-proton chain. If the core were hotter, Helium would be fused to make carbon. Carbon would be fused to make nitrogen, etc.
Nuclear fusion does.
The nuclei (nucleuses) of 2 or more atoms join into a single nucleus,
which releases a comparatively enormous amount of energy. This
process is the source of the energy that a star radiates.
The core is the innermost layer of the sun. It is a source for all the Sun's energy. The material of the core is firmly attached and has very high temperature, which is about 57,000,000°F. The core's intense heat destroys the internal structure of an atom. Therefore all atoms are broken down into their constituent parts. An atom is composed of protons called electrons and neutrons. Neutrons have no electric charge so they do not interact a lot with the surrounding medium. Thus neutrons go away the core fairly and quickly. The protons, which have positive electric charge, and the electrons, which have negative electric charge, remain in the core and force the reactions which fuel the Sun. The charge neutral material of protons and electrons that makes up the core is called plasma. The high temperature provides the protons and electrons with a great amount of thermal energy. Therefore they moved pretty quickly and they combine with the high density of the plasma, causes the particles to continuously slam into one another creating nuclear reactions. It is the fusion, or slamming together, of particular combinations of particles that provides the energy source of the Sun.
The core is the innermost layer of the sun and it is a source for all the Sun's energy. Thermonuclear reactions takes place inside the core ,thus hydrogen atoms are comnbined with each other to make helium atoms and produces energy which keeps the Sun in a state of equilibrium. Thus this thermonuclear reaction is called nuclear fusion.
The suns core is the innermost portion of the sun. It's the hottest layer and under the highest pressure, enabling nuclear fusion to take place, which produces the energy.
there is nuclear fusion going on in the core. first the sun pull hydrogen together into helium and after hydrogen is used out, helium is fusioned into carbon molecules.
nuclear fusion, combining 4 hydrogen atom to form 1 helium atom and energy
sun internal structures
the proton-proton (pp) reaction
tiny atom exploding Constantly
The sun shines because of the energy released by the hydrogen fusion that occurs in its core. This energy heats the gases in the sun to the point that they emit light.
The nuclear fusion that converts two hydrogen atoms into one Helium atom produces energy. It occurs at the core of the Sun.
Nuclear Fusion occurs in the core of stars.
The sun has many different layers that make up the sun: Core Radiation Zone Convection Zone Photosphere- sunspots Chromosphere Transition Region Corona The Core is the layer that stores all of the sun's energy. The Radiation Zone transfers the energy that the Core passes. The Convection Zone carries the sun's energy to the surface. The Photosphere is the visible surface of the sun. The Chromosphere is a thin surface above the Photosphere. The Corona is the sun's atmospheric layer.
The core of the sun is about 15 million Kelvin.
Fusion occurs in the core of the Sun
Central part of the Sun where nuclear fusion occurs is called core.
Nuclear fusion.
Fusion occurs in the core of the sun and other stars.
Only at the core, where the temperatures and pressures are high enough.
The sun's core is responsible for converting hydrogen into helium.... This process occurs at MILLIONS of degrees.
Nuclear fusion occurs in the solar core.
Fusion takes place in the core, where the temperature and pressure are much higher, which is necessary for fusion.
The sun shines because of the energy released by the hydrogen fusion that occurs in its core. This energy heats the gases in the sun to the point that they emit light.
well it occurs in the core of the sun, and it travels because it is shot out of the sun because it has too much pressure.
The nuclear fusion that converts two hydrogen atoms into one Helium atom produces energy. It occurs at the core of the Sun.
The core just means the centre. Therefore, the core of the Sun is in the centre of the Sun.