how do you derive velocity from the equation 8-6t+t^2? PLEASE EXPLAIN HOW YOU GOT THE ANSWER. Thanks.

Question

anonymous · Answer

hello, i'm not quit very good in math, but i'll give it a go. 
this is a general case: the derivative of a constant is zero 
whereas, for example, the derivative of (3x)^2, where x is a variable, is (3*2)*x^(2-1). we multiply the exponent of the term (3x) by the constant next to the variable, and we subtract 1 from the exponent. 
in case of the question: derivation:0- (6*1)*t^(1-1) +(1*2)*t^(2-1) = 0- 6*t^0 + 2*t^1 = 0-6+2t

anonymous · Answer

since the acceleration function has already been giving as a=8-6t+t^2,we want to find velocity,it implies we have to integrate
i.e a=8-6t+t^2 implies $$v=\int\limits a  dt = \int\limits (8-6t+t^2)dt$$ . after integration this is what you get$$c + 8t -3t^2 +t^3/3$$ which becomes your velocity.
now if you know your initial velocity and time that is V1 and T1 respectively you substitute into your velocity equation $$v =c + 8t -3t^2 +t^3/3$$ you can derive your constant "C".
hence to find the second velocity all you have to do is substitute the time T2 of the second velocity into the equation.