This is the sort of question that should involve months of research so would be ideal as the subject for a Doctor of Philosophy dissertation.
It is an observable phenomenon that changes in response to temperature. For example, if we raise the temperature of a metal wire, it will begin to emit radiation which increases in frequency as the temperature increases. The radiation frequency is the dependent variable here.In any event, you the experimenter determine which variables you wish to study. If you believe that but one variable might depend on temperature, be aware that's nonsense!
Conduction, convection, radiation.
The sun gives off radiation. An x-ray machine gives off radiation.
Radiation can cause sunburn, cancer, genetic mutation.
A banana is a non-example of radiation.
A single electron can produce different types of radiation. Radiation, frequency, and wavelength all rely on each other. If an electron can produce multiple types of radiation, it can also produce different wavelengths and frequencies, because the wavelengths and frequencies are dependent on the radiation type.
It is an observable phenomenon that changes in response to temperature. For example, if we raise the temperature of a metal wire, it will begin to emit radiation which increases in frequency as the temperature increases. The radiation frequency is the dependent variable here.In any event, you the experimenter determine which variables you wish to study. If you believe that but one variable might depend on temperature, be aware that's nonsense!
The absorption of radiation is different for each shielding material and type of radiation.
The Wilson Chamber has the radiation independent of the particle. This is a particle detector used for detecting ionizing radiation.
The effects of radiation are dependent on the intensity and duration of exposure. See related links below for effects.
There are many different kinds of radiation and the appropriate safety precautions are different for the different kinds. The precautions for using microwave radiation, for example are very different from the precautions for using gamma radiation, or infra red radiation.
Radiation
Radiations are independent from temperature.
Different instruments are sensitive to different kinds of radiation.
There are several different kinds of radiation and the appropriate precautions are different for each kind.
Different layers of materials have different absorbances for radiation.
There are different types of radiation; you may be referring to the electromagnetic radiation.