The relationship between revolutions per minute (RPM) and relative centrifugal force (xg) is:
g = (1.118 × 10-5) R S2
where g is the relative centrifugal force, R is the radius of the rotor in centimeters, and S is the speed of the centrifuge in
revolutions per minute.
You can use this for any centrifuge, just measure the radius of the rotor from the center to outer edge.
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G(F(x)) =~F(x) = and G(x) = 1F(x) = + 1 and G(x) = 3xF(x) = x + 1 and G(x) =orF(x) = 3x and G(x) = + 1-F(x) = x+ 1 and G(x) =G(F(x)) = x4 + 3~F(x) = x and G(x) = x4F(x) = x + 3 and G(x) = x4F(x) = x4 and G(x) = 3orF(x) = x4 and G(x) = x+ 3-It's F(x) =x4 andG(x) = x+ 3G(F(x)) =4sqrt(x)F(x) = sqrt(x) and G(x) = 4x
It is the values of x, for which g(x) is defined.
If f(x)=2z^2+5 and g(x)=x^2-2, fine (f-g)(x)
g(x) = x-6 is the function g(x) = x with a negative vertical shift of 6. That is to say, take the whole graph of g(x) = x and move it down 6 units.
What answer is this f(x)=3x+10 and g(x)=2x-4 find (f+g)(x)?