The answe to this question is false. Long-wave radiation from the ground does not pass through the atmosphere without absorption.
Yes, long-wave radiation emitted from the Earth's surface can pass through the atmosphere without being absorbed by greenhouse gases such as water vapor, carbon dioxide, and methane. These gases are transparent to long-wave radiation, allowing it to exit the atmosphere and dissipate into space.
Longwave radiation can pass through glass, as glass is transparent to certain wavelengths of energy. However, glass has some absorptive properties, so some of the longwave radiation may be absorbed and re-emitted as heat within the glass. This can contribute to the warming effect inside a greenhouse or a car on a sunny day.
Heat energy is transferred through the atmosphere by conduction, convection, and radiation. Conduction occurs when heat is transferred through direct contact between molecules. Convection is the transfer of heat through the movement of air or fluid, while radiation involves the emission and absorption of electromagnetic waves.
No, radiation from the sun heats the Earth primarily through the process of absorption of solar radiation by the Earth's surface and atmosphere. Convection is the transfer of heat through the movement of fluids, such as air and water, but it is not the primary mechanism by which the Earth is heated by solar radiation.
The two main measures of the amount of radiation that passes through a substance like gas are absorption and transmission. Absorption refers to the amount of radiation that is absorbed by the substance, while transmission refers to the amount of radiation that passes through the substance without being absorbed. These measures are important for understanding how different materials interact with radiation.
No, ordinary window glass has a low transmissivity in the longwave infrared band. It absorbs and reflects the infrared radiation rather than allowing it to pass through. To improve transmissivity in this range, special coatings or materials can be used.
Longwave radiation can pass through glass, as glass is transparent to certain wavelengths of energy. However, glass has some absorptive properties, so some of the longwave radiation may be absorbed and re-emitted as heat within the glass. This can contribute to the warming effect inside a greenhouse or a car on a sunny day.
Heat energy is transferred through the atmosphere by conduction, convection, and radiation. Conduction occurs when heat is transferred through direct contact between molecules. Convection is the transfer of heat through the movement of air or fluid, while radiation involves the emission and absorption of electromagnetic waves.
Energy is transferred through the atmosphere by radiation.
An absorption coefficient is a measure of the absorption of electromagnetic radiation as it passes through a specific substance - calculated as the fraction of incident radiation absorbed by unit mass or unit thickness.
Wein's Displacement Law explains the difference between long and shortwave radiation. Shortwave radiation has shorter, more high energy wavelengths (stronger with less distance to travel) while longwave radiation travels farther, but has less energy. Earth's radiation is 20 times longer than the maximum solar radiation, so it is referred to as longwave, while solar energy is referred to as shortwave radiation.
No, radiation from the sun heats the Earth primarily through the process of absorption of solar radiation by the Earth's surface and atmosphere. Convection is the transfer of heat through the movement of fluids, such as air and water, but it is not the primary mechanism by which the Earth is heated by solar radiation.
radiation
The two main measures of the amount of radiation that passes through a substance like gas are absorption and transmission. Absorption refers to the amount of radiation that is absorbed by the substance, while transmission refers to the amount of radiation that passes through the substance without being absorbed. These measures are important for understanding how different materials interact with radiation.
almost none the vast majority of visible light passes through the atmosphere.
almost none the vast majority of visible light passes through the atmosphere.
No, ordinary window glass has a low transmissivity in the longwave infrared band. It absorbs and reflects the infrared radiation rather than allowing it to pass through. To improve transmissivity in this range, special coatings or materials can be used.
The increase in carbon dioxide in the atmosphere means that more solar radiation (in the form of infra-red heat from the warmed earth) is absorbed in the atmosphere and prevented from escaping to space. It will not change the transmission of incoming solar radiation through the atmosphere.