Which option below correctly compares the average annual dose of background radiation to the dose liked to an increased cancer risk?
a. the average annual dose of background radiation is 250 times larger than the dose linked to increased cancer risk.
b. the average annual dose of background radiation is 250 times smaller than the dose linked to increased cancer risk.
c. the average annual dose of background radiation is 100,000 times smaller than the dose linked to increased cancer risk.
d. the average annual dose of background radiation is 100,000 times larger than the dose linked to increased cancer risk.
Answers: 2
Physics, 21.06.2019 22:50, ijohnh14
If the temperature were raised very high, classically what would we expect the heat capacity per object to be for this one-dimensional system? give a numerical value. chigh t = __ j/k/object (one reason for the discrepancy is that the high-temperature limit assumes that the number of oscillators is large (n > > 1), which is not the case in this tiny system.)
Answers: 2
Physics, 22.06.2019 13:20, Tess3492
It is reasonable to assume that the bulk modulus of blood is about the same as that of water (2.2 gpa). as one goes deeper and deeper in the ocean, the pressure increases by 10000 pa for every meter below the surface. if a diver goes down 80.0 m in the ocean, by how much does each cubic centimeter of her blood change in volume? give the answer in cubic centimeters (actually one cubic centimeter equals one milliliter).
Answers: 2
Which option below correctly compares the average annual dose of background radiation to the dose li...
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