Temperature affects the amount of radiation emitted by an object. As temperature increases, the intensity of radiation given off also increases. This is because higher temperature causes atoms and molecules to vibrate more, resulting in higher energy radiation being emitted.
This is the solubility at a given temperature and pressure.
Yes. How much it affects the experiment depends on exactly what the experiment is and how much the temperature has changed, but any change in temperature affects water's physical and chemical properties.
As a star expands, its temperature decreases. This is because the energy in the star becomes more spread out as the star grows in size, leading to a decrease in temperature. Although the surface of the star can appear brighter as it expands, the overall temperature of the star decreases.
Clouds do reflect incoming sunlight back into space, as well as retain heat in the lower atmosphere. High clouds tend to have more of a warming effect because it is easier for solar radiation to pass through them, and also because the temperature at which they emit infrared radiation (heat) back to space is much less due to their cold temperature. Conversely, low clouds tend to be optically thick and reflect more solar radiation back to space, causing more of a cooling effect. They also emit more infrared radiation upward because they're emitting at a warmer temperature lower in the atmosphere, further adding to their cooling effect. However, scientists are not yet certain whether the net effect globally is cooling or warming.
Saturn receives significantly less solar radiation compared to Earth due to its distance from the Sun. The solar radiation it receives is much weaker, making it a colder planet with an average temperature of -288 degrees Fahrenheit (-178 degrees Celsius).
A few suggestions to answer your question:Search for the meaning of the greenhouse effect. Make sure you understand the natural effect, and the enhanced greenhouse effect.Find out how much the temperature has risen since global warming began at the start of the Industrial Revolution.Find possible solutions to the greenhouse effect, by governments and by individuals
yes, but not very much
Both Earth and Venus have increase temperature due to a greenhouse effect. Venus has a much stronger greenhouse effect than Earth does.
The phenomenon of a closed car heating up on a sunny day is primarily due to radiation. Sunlight enters the car's windows and is absorbed by the interior surfaces, which then re-radiate the heat as infrared radiation. Because this infrared radiation has difficulty escaping through the windows, the temperature inside the car increases, demonstrating the greenhouse effect. This process illustrates how radiant energy can lead to significant temperature changes in enclosed spaces.
It effects it in the freezer, it won't pop as much as room temperature. It would take alot of heat to effect it.
The sun sends radiation from the sky to the ground to make the temperature rise, but when the sun sets the moon comes out and it doesn't have enough heat and light to send down as much radiation.
1 Millirem. Which is less than their yearly dose.
Its temperature.
Exposing tumors to ionizing radiation kills them faster than it kills nearby healthy tissue. If you can focus or otherwise concentrate the radiation on the tumor the effect is even stronger. The reason for this effect is tumors generally grow much faster than healthy tissue, and ionizing radiation damages growing tissue much more significantly than tissue that is not actively growing. This damage should kill it.
no, unless it's frozen
The solubility graph shows how much of a solute will dissolve in a given solvent at a given temperature.
Yes, the shape of an object can affect the way it interacts with radiation. Irregular shapes can scatter radiation more than regular shapes. The surface area-to-volume ratio of an object can also impact how much radiation it absorbs or reflects.