1) Cloud cover: the recent decrease in the output of cosmic rays from the Sun gives less sites of nucleation for cloud water droplets to form which gives less clouds, and
2) Arctic Ice : where it isn't already gone - exposing heat absorbing land - it is covered in soot.
3B) We should be more concerned with what we absorb than what we can reflect.
the suns heat light and energy comes from the core of the sun and travels trough space
No, there are not 50 suns in the universe. Our solar system has one sun, which is a star that provides light and heat to the planets. There are billions of other stars in the universe, but not all of them are like our sun.
cause mercury doesnt trap the suns heat into the surface. It burns in the day time but freezes at the night time. Venus traps the suns heat in its surface.
One term often used in Astronomy is the albedo. It refers to the percentage or fraction of incoming light that is reflected.
Yes, the sun can burn Space rocks because of the suns heat.
The reflectivity of metals is directly related to their ability to efficiently conduct heat and light. Metals that are highly reflective tend to be good conductors of heat and light, as they are able to reflect and transmit these forms of energy effectively. Conversely, metals with low reflectivity may not conduct heat and light as efficiently.
the suns heat light and energy comes from the core of the sun and travels trough space
the suns heat makes light the sun heat is orange which gives light
Nuclear fusion.
i dont know you tell me
The name for the sun's sphere of light is called the photosphere. It is the visible surface of the sun that emits light and heat.
Waves of heat and light, called radiation, travel to earth.
Photosynthesis primarily relies on the sun's light energy, which is captured by chlorophyll in plant cells to drive the photosynthetic process. While some heat energy may be generated as a byproduct of photosynthesis, it is not the main source of energy for the process.
Gold foil is normally used to reflect solar heat in satellites because it has the highest reflectivity in the infrared spectrum (and, as NASA used to say, solid Gold was too expensive!)
The energy produced by the fusion of hydrogen atoms into helium in the sun's core is what generates the heat and light emitted by the sun. This process releases energy in the form of electromagnetic radiation, which includes visible light and heat.
The sun crushes hydrogen into helium with its immense gravity. This makes light and heat. This is a nuclear reaction.
The sun crushes hydrogen into helium with its immense gravity. This makes light and heat. This is a nuclear reaction.