Planets typically do not produce more heat than stars. Mercury gets really hot BECAUSE of the sun.
Ummm . . . Sunlight itself produces no heat, but light comes from the Sun along with heat, x-rays, and other high-energy particles.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
The amount of light and warmth a planet receives depends on their distance from the sun and the atmosphere. If the atmosphere has high levels of Carbon Dioxide, the gases will trap more heat.
pisti ang buang
The humans definitly produce more heat than the sun gram for gram the only reason it's hotter because it is bigger
Any device that produces light also produces heat. Some more than others. An incandescent lamp is actually more efficient at producing heat than producing light. There are available different types of lamp which produce less heat such as LCD lamps.
Ummm . . . Sunlight itself produces no heat, but light comes from the Sun along with heat, x-rays, and other high-energy particles.
the sun produces light ,heat ,energy,and so much more
It is easier to see when it is yellow. It produces more heat energy and less light energy when it is blue. The yellow flame produces more light energy than heat energy. That makes it more visible
It makes thermal energy (the heat), radiant energy (what we see), which is in essence more or less the same manifestation.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
It uses more power (watts) than before, it produces more heat, and also more light.
The Sun's light allows plants to photosynthesize, and plant eaters eat the plants, and meat eaters eat the planet eaters, and so on.With the Sun's light, comes heat.
A light bulb radiates energy in form of electromagnetic waves. Most of them are in the infrared part of the spectrum (heat), some visible light and some in higher regions of the spectrum (ultraviolet), especially bulbs with very high filament temperature (halogen).Another answerA light bulb does not "produce" energy it uses electricity or more specifically changes electrical energy to electromagnetic waves in the forms of thermal and light.Thermal (or heat) waves at invisible infrared frequenciesLight waves at visible frequencies and invisible ultraviolet frequenciesFurther noteElectromagnetic radiation that has a wavelength in the range from about 4,000 (violet) to about 7,700 (red) angstroms may be perceived by the normal unaided human eye.
The amount of light and warmth a planet receives depends on their distance from the sun and the atmosphere. If the atmosphere has high levels of Carbon Dioxide, the gases will trap more heat.
A fluorescent light bulb contains a gas which produces UV light when it comes in contact with electricity. Contrary to a normal light bulb this does not create any heat and is far more energy efficient.