G
Guest
Guest
This is a problem i have for my math class. It has to do with steel flowing through a pipe in a manufacturing plant. the equation for the shape of the pipe is given as
(in my equation i will be using T in place of theta for the equation)
X(T)= (3/(16*pi^5)*T^5 - 15/(16*pi^4)*T^4 + 5/(4* pi^3)*T^3)* cos(T)
Y(T)= (3/(16*pi^5)*T^5 - 15/(16*pi^4)*T^4 + 5/(4* pi^3)*T^3)* sin(T)
Z(T)= 1- (T/(2*pi)-1)^4
the equations are defined on the range T= [0, 2pi]
I need to use calculus to find the velocity and the acceleration of the rod travelign through the pipe.
I believe this is done somehow by taking the derivative of the equations but am unsure of the reasoning behind this.
any help or suggestions would be greatly appreciated.
(in my equation i will be using T in place of theta for the equation)
X(T)= (3/(16*pi^5)*T^5 - 15/(16*pi^4)*T^4 + 5/(4* pi^3)*T^3)* cos(T)
Y(T)= (3/(16*pi^5)*T^5 - 15/(16*pi^4)*T^4 + 5/(4* pi^3)*T^3)* sin(T)
Z(T)= 1- (T/(2*pi)-1)^4
the equations are defined on the range T= [0, 2pi]
I need to use calculus to find the velocity and the acceleration of the rod travelign through the pipe.
I believe this is done somehow by taking the derivative of the equations but am unsure of the reasoning behind this.
any help or suggestions would be greatly appreciated.