The device emits a power of insert power value per square meter.
Nuclear power plants emit significantly fewer greenhouse gases compared to fossil fuel power plants. On average, nuclear plants emit around 2-3 million tons less CO2 per year for each gigawatt of power produced compared to coal-fired power plants. This reduction helps to mitigate the impacts of climate change.
Humans emit carbon dioxide by breathing. They also emit carbon dioxide by belching and they emit methane by farting.
No, ice emits thermal radiation. It just emits less than so called room temperature. You need to get down to absolute zero, around -273C, to stop the emission of thermal radiation, which is caused by thermal activity.
No, sodium lamps emit monochromatic light, which is not suitable for finding the dispersive power of a prism. To determine the dispersive power of a prism, you need light that contains multiple wavelengths. White light, such as from a sunlight or incandescent lamp, is typically used for this purpose.
Massive celestial bodies of gases that emit heat and light by radiation are stars. They are primarily composed of hydrogen and helium gases, and the nuclear fusion reactions occurring in their cores generate the heat and light that they emit.
Red giant stars emit less light per square meter of surface area than smaller, hotter stars, but their larger size means they have a larger surface area from which to emit light, so they emit more light overall.
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No. A GPS device is a receiver . . . it does not emit or transmit anything.
No, it's just an electronic device
the electricity used to power the light bulb emit carbon dioxide
Does not emit polluting gases such as carbon dioxide or sulfur dioxide
A light bulb is a common device that can produce light when electricity passes through it, causing the filament to heat up and emit light.
Almost all devices emit smells. The difficulty lies in constructing devices which don't. That's why explosive-detecting dogs are so successful, for example
You think probable to an ultraviolet lamp.
Yes, power lines emit electromagnetic fields or frequencies due to the flow of electricity through them. These electromagnetic fields can vary in strength depending on factors such as the voltage and current flowing through the power lines.
It would look brighter if it is closer to Earth. It is also possible for a small star (small in diameter) to have a higher surface temperature, i.e., to emit more light per square meter of its surface.
The idea is that a larger star may be cooler - emit less energy per square meter of surface. The total energy emitted is equal to the surface area, multiplied by the energy emitted per unit area.