I'm pretty sure the answer is:
C= de3k/ √m
(C equals d times e cubed times k, divided by the square root of m).
C = k*a*d*e^3/sqrt(m) where k is a constant.
The statement "y varies inversely as the square of x" means that in function form y(x) = k/x2, where k is an (initially) unknown constant. The second condition can be written in algebraic form as 4 = k/32 ; or k = 4 X 9 = 36; Then y(2) = 36/22 = 9.
2
y is 12
x2y = k (constant) so 36 x 2 ie 72 is the constant. If x = 3 then y = 72/9 = 8
C = k*a*d*e^3/sqrt(m) where k is a constant.
Yes it does. That's correct.
I am assuming that k is the constant of proportionality so that f = k*a*t/b2 = 3*4*6/22 = 18
Then b = kc3/d2 where k is some positive constant.
The gravitational force varies directly as the mass and inversely as the square of the distance.
25
The electric field around an electric charge varies inversely as the square of the distance to the charge.
This varies inversely with the amount of impurities.
Altitude varies pressure and temperature varies inversely with pressure.
bicarbonate
The law is that the attraction between electric charges is inversely proportional to the square of the distance. Note that the way the force varies with distance is identical to the gravitational force, which also follows an inverse-square law.
Suppose the amount of radiation that could be received from a microwave oven varies inversely as the square of the distance from it. How many feet away must you stand to reduce your potential radiation exposure to the amount you could receive standing 1 foot away?