How do you find the derivative of #1-v^2/c^2#?

Apparently it's #(-2v)/c^2#, but how?
My steps:

(Quotient Rule)
#(c^2 * 2v - v^2 * 2c)/(c^2)^2 = -(2v)/c^2 * (c^2 +cv)/c^2#

What did I do wrong do get an answer off by a factor of #(c^2 +cv)/c^2#?

2 Answers
Jul 26, 2017

Either #c# is a constant or you are finding a partial derivative with respect to #v# (in which case #c# is treated like a constant).

Explanation:

You don't mention what the variable is here are some possibilities:

Find #d/(dv)(1-v^2/c^2)# where #c# is a constant.

In this case, the function of interest is #f(v) = 1-v^2/c^2# where #c# is a constant., and derivative of #c# is #0#, not #2c#

If you really want to use the quotient rule, it goes like this:

#d/(dv)(1-v^2/c^2) = 0- (2v(c^2) - v^2 (0))/(c^2)^2#

# = -(2vc^2)/c^4 = -(2v)/c^2#

OR

The function of interest is

#f(v,c) = 1-v^2/c^2#

and you are looking for #(delf)/(delv)#.

(Which is also denoted #f_v(v,c)# or #D_v(f(v,c))# or #D_1(f)# and probably some others I've left out.)

For the partial derivative with respect to #v#, we treat #c# as a constant, so we get the same result as above.

Jul 26, 2017

It looks like the variable is #v#, in fact:

#d/(dv) (1-v^2/c^2) = -(2v)/c^2#

if #c# is constant