As your teacher..............
How do radiations produce heat?
Heat transfer by electromagnetic waves through space is called radiation. Radiation does not require a medium to travel through, unlike conduction or convection. The Sun's energy reaching the Earth is an example of heat transfer through radiation.
A hot furnace emits primarily infrared radiation, which is a form of heat energy. This radiation is invisible to the human eye but can be felt as heat when in close proximity to the furnace.
A candle relies on burning to produce light and heat. The wick of the candle is lit, and the heat from the flame melts the wax, which is then drawn up the wick and burned to produce light and heat.
Energy is the ability to do work or produce heat. Radiations, such as electromagnetic waves or particles, are forms of energy that travel through space. While all radiation carries energy, not all energy is in the form of radiation.
radiation can transfer heat to the surrounding's
Actually heat cannot travel through vacuum. sun emits radiations (obviously electromagnetic radiations.) which needs no medium to travel. hence these radiations travel through space and reaches earth where it interacts with atmosphere. when these radiations fall on media like air, water land etc. the radiation is converted into heat energy. Thus it is clear that heat from sun is converted into radiations which travel through space and reaches earth where it is converted to light.
heat transfor to radiations
How do radiations produce heat?
Because of the absense of atmosphere spacecraft becomes too hot as Sun's heat radiations fall on it. Apart from heat radiations, ultra violet rays too fall on it in larger amount.
overexposure to heat and uv radiations causes for the immune inhibition.
As heat radiations fall on the body, we feel hot.
When the sun shines on an object, the object heats up. At the same time, the warm object also radiates heat away from itself. Our atmosphere acts as an insulation blanket, slowing the heat loss. At high altitudes, the air blanket is thinner, so the objects heated by the sun radiate heat back out into space much faster and the temperature is thus lower. Another view: Radiations from sun first falls on altitudes and the altitudes lies in troposphere u.v radiations are high energy radiations which absorb in ozone layer while just visible spectrum falls on surface of earth.that radiations does not heat the earth they simply stirke to ground and absorb in it and then emitt as high energy radiations(terresterial radiations),these radiations reabsorb in high dense air(as we know density of air decreases as we move upward) and the radiations that will not absorb in these molecules n particles of air will move upward(almost in troposphere) and absorb there being high energy radiations/air relative to surroundings the hot air will rise ultimately creating a low temperature there which cause the molecules to be condensed and vapourize(cloud formation) thus finally creates a low temperature at altitudes.
Lightt and Heat are both electromagnetic radiations the similarity rises to sameness. Heat is low frequency light or light is high frequency light.
Heat transfer by electromagnetic waves through space is called radiation. Radiation does not require a medium to travel through, unlike conduction or convection. The Sun's energy reaching the Earth is an example of heat transfer through radiation.
Uranium don't emit directly heat; under nuclear fission the kinetic energy released and the energy of radiations is converted to heat and after to electricity.
simply splitting of a larger particle in to many smaller particles... when a faster elentron is made to collide over an atom then the atom will splits to produce a larger energy(heat radiations)... the term nuclear fission is because the fast electron will actually hits the nucleas of that atom to produce energy...