The zone of the sun where photons travel from atom to atom is called the "photosphere". The photosphere is the visible surface of the sun and is composed of ionized gas and photons. Photons are essentially particles of light that travel through the sun\'s atmosphere bouncing off the surrounding gas and dust particles. The photosphere is about 500 km thick and is the layer of the sun that we can see with the naked eye. The photosphere is the visible surface of the sun.It is composed of ionized gas and photons.Photons are particles of light that travel through the sun\'s atmosphere.The photosphere is about 500 km thick.The photosphere is the layer of the sun that we can see with the naked eye.
Due to the vacuum of space there is no convection or conduction. Energy is transported by photons from the Sun to Venus (radiation).
the photons travel outward from a light source in all directions.
Photons travel outward from a light bulb in all directions
Sunlight, in the form of photons.
The surface temperature of the sun is roughly 5,800K, so the color of most of the photons that leave the sun's surface is green.
Photons do travel in a straight path. To a person observing the photons though they will appear to be curved because of the gravitational field.
The zone of the sun where photons travel from atom to atom is called the "photosphere". The photosphere is the visible surface of the sun and is composed of ionized gas and photons. Photons are essentially particles of light that travel through the sun\'s atmosphere bouncing off the surrounding gas and dust particles. The photosphere is about 500 km thick and is the layer of the sun that we can see with the naked eye. The photosphere is the visible surface of the sun.It is composed of ionized gas and photons.Photons are particles of light that travel through the sun\'s atmosphere.The photosphere is about 500 km thick.The photosphere is the layer of the sun that we can see with the naked eye.
No. All photons travel at the speed of light.
Photons travel outward from a light bulb in all directions.
Due to the vacuum of space there is no convection or conduction. Energy is transported by photons from the Sun to Venus (radiation).
the photons travel outward from a light source in all directions.
Photons travel outward from a light bulb in all directions.
Photons travel outward from a light bulb in all directions
Photons.
Photons
The expansion of space in all parts of our Universe. When a group of photons leave an object (like a super-nova in a distant galaxy), they have a certain wavelength, and a certain distance between the first photons from that super-nova and the last such photons. During their travel, the expansion of space causes the wavelength of the photons to increase (even if they interact with no matter whatsover in their travels), as well as the distance between the first photons to leave and the last photons to leave. If these photons travel for enough time (say, a few 100 million to a few billion years) before they reach a detector on our Earth, the increase in wavelength AND the distance between the first and last photons becomes measurable. The photons have a wavelength longer than they "should" have, and the time between the first photons to arrive and the last to arrive will increase. The increase in wavelength, as well as the increase in time for the super-nova to last, will be as predicted by Hubble's Law.