how can you determine the maximum distance in kilometers (km) that tsunami waves (shown as series of concentric curved dashes) travelled from the epicenter.
The ozone layer high above the Earth blocks most of the ultraviolet (UV) light emitted by the Sun. This radiation is generally harmful to living things.
No, ultraviolet radiation is not emitted by the Earth itself. Ultraviolet radiation comes from the sun and is a form of electromagnetic radiation with shorter wavelengths than visible light. Earth's atmosphere filters and absorbs some of the incoming ultraviolet radiation before it reaches the surface.
Infrared radiation is the type of radiation that gets trapped on Earth's surface by the greenhouse effect. This radiation is emitted by the Earth's surface in response to the incoming solar radiation and is absorbed and re-emitted by greenhouse gases in the atmosphere, leading to the warming of the planet.
The Earth's atmosphere blocks harmful radiation, such as ultraviolet radiation, by absorbing and scattering it. The ozone layer, located in the stratosphere, is particularly effective at absorbing harmful UV radiation from the sun. Additionally, the Earth's magnetic field helps to protect the planet from harmful solar radiation and cosmic rays by deflecting them away from the surface.
how can you determine the maximum distance in kilometers (km) that tsunami waves (shown as series of concentric curved dashes) travelled from the epicenter.
Energy generated on Earth is eventually returned to space in the form of infrared radiation emitted by the Earth's surface. This radiation is a result of the Earth absorbing and then reradiating solar energy received from the Sun.
The thermal energy emitted from the surface of the Earth is in the form of longwave infrared radiation, also known as heat energy. This radiation is released as a result of the Earth absorbing solar radiation during the day and re-radiating it back into the atmosphere at night. The Earth's surface cools down by emitting this thermal energy into the atmosphere.
Earth does radiate light in the form of thermal radiation, which is emitted as heat energy. This radiation is typically in the infrared range and is a result of the Earth's surface absorbing sunlight and then re-emitting it as heat.
The Sun emits a broader spectrum of radiation, including visible light, ultraviolet rays, and infrared radiation, while Earth primarily emits infrared radiation due to its lower temperature. The Sun's radiation is much more intense and has higher energy compared to the radiation emitted by Earth.
The wavelengths of radiation emitted by Earth are primarily in the infrared spectrum, ranging from about 5 to 100 micrometers. This is known as terrestrial or thermal radiation, and it is a form of heat energy emitted by the Earth's surface and atmosphere.
The ozone layer high above the Earth blocks most of the ultraviolet (UV) light emitted by the Sun. This radiation is generally harmful to living things.
The radiant entergy emitted by Earth
The Earth emits terrestrial radiation constantly, but the amount of radiation emitted depends on the temperature of the Earth's surface. Warmer objects emit more radiation than cooler objects, so the Earth emits the most terrestrial radiation during the day when it is exposed to sunlight.
No, ultraviolet radiation is not emitted by the Earth itself. Ultraviolet radiation comes from the sun and is a form of electromagnetic radiation with shorter wavelengths than visible light. Earth's atmosphere filters and absorbs some of the incoming ultraviolet radiation before it reaches the surface.
Infrared radiation is the type of radiation that gets trapped on Earth's surface by the greenhouse effect. This radiation is emitted by the Earth's surface in response to the incoming solar radiation and is absorbed and re-emitted by greenhouse gases in the atmosphere, leading to the warming of the planet.
The Earth's atmosphere blocks harmful radiation, such as ultraviolet radiation, by absorbing and scattering it. The ozone layer, located in the stratosphere, is particularly effective at absorbing harmful UV radiation from the sun. Additionally, the Earth's magnetic field helps to protect the planet from harmful solar radiation and cosmic rays by deflecting them away from the surface.