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What is the independent and dependent variable for this question How do different levels of radiation affect the germination of radishes?
Kath660
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.
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∙ 14y ago
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What is the dependent variable when the independent variable is temperature?
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!
Name three different rays?
Conduction, convection, radiation.
Gave you a example of radiation in real life?
The sun gives off radiation. An x-ray machine gives off radiation.
What can radiation cause?
Radiation can cause sunburn, cancer, genetic mutation.
What are the non examples of radiation?
A banana is a non-example of radiation.
Does radiation rise?
No, radiation does not rise. Radiation can travel in all directions from its source, with its behavior dependent on the type of radiation and the surrounding environment.
What is the dependent variable when the independent variable is temperature?
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!
Which radiation detector is independent of particle A- wilson cloud chamber B- GM tube C- solid state detector D- all?
The Wilson Chamber has the radiation independent of the particle. This is a particle detector used for detecting ionizing radiation.
Why is different shielding appropriate for different kinds of radiation?
The absorption of radiation is different for each shielding material and type of radiation.
What is the long effect of radiation on the body and organs?
The effects of radiation are dependent on the intensity and duration of exposure. See related links below for effects.
How is it possible for a single electron to produce so many different wavelengths and frequencies?
A single electron can produce different wavelengths and frequencies through interactions with different energy levels within an atom or molecule. When the electron transitions between these energy levels, it emits or absorbs photons with varying energies, resulting in a spectrum of wavelengths and frequencies.
Why wouldn't freezing radioactive waste reduce radiation?
Radiations are independent from temperature.
What is radiative exchange?
Radiative exchange refers to the transfer of heat through electromagnetic radiation between two surfaces at different temperatures. This process can occur in a vacuum and does not require a medium for heat transfer. The rate of radiative exchange is dependent on the temperature and emissivity of the surfaces involved.
do all objects with a temperature above absolute zero emit radiation?
Yes, all objects with a temperature above absolute zero emit radiation. This radiation is in the form of electromagnetic waves, with the intensity and wavelength dependent on the object's temperature.
How can a film badge tell which type of radiation is being absorbed?
Different layers of materials have different absorbances for radiation.
What are some of the better radiation therapy schools?
If you are interested in taking a couple courses on radiation therapy, then there are many different kinds of schools that offer different courses in radiation therapy.
What is The definition of secondary radiation is .?
Secondary radiation refers to the radiation that is produced when primary radiation interacts with matter, leading to the emission of additional radiation. This secondary radiation can have different properties and energies compared to the original primary radiation.
