Trapezoidal rule to find total work?
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Rachel Dawn
on 28 Mar 2018
Edited: Roger Stafford
on 28 Mar 2018
I'm given 6 values for time, Force, and velocity. And I'm told to find total work with trapezoidal rule. (first time value is zero)
Does this seem correct? I excluded the code where I assign t=[0,#, #,...] & v=[.2, #, #...] & F=[2.0, #, #...]
pos(1)=0
work(1)=0
totalwork=0
for i=2:length(t)
area=(v(i)+v(i-1))*(t(i)-t(i-1))/2
pos(i)=pos(i-1) + area
work(i)= (pos(i) + pos(i-1))*(F(i)-F(i-1))/2
totalwork= totalwork + work(i)
end
totalwork
2 Comments
David Goodmanson
on 28 Mar 2018
Edited: David Goodmanson
on 28 Mar 2018
Hi Rachel,
you should take a look at the (pos(i) + pos(i-1))*(F(i)-F(i-1))/2 term. If the force is constant everywhere, your expression will produce zero for the total work. So you need to describe the correct trapezoid.
Accepted Answer
Roger Stafford
on 28 Mar 2018
Edited: Roger Stafford
on 28 Mar 2018
I would think your code should be this:
work = 0;
for k = 2:length(t)
work = work + (F(k)+F(k-1))/2*(v(k-1)+v(k))/2*(t(k)-t(k-1));
end
That is, the quantity "(v(k-1)+v(k))/2*(t(k)-t(k-1))" is the approximate displacement during the time interval t(k-1) to t(k), and if it is multiplied by the average force (trapezoid rule), "(F(k)+F(k-1))/2", during that time interval you would get the approximate work done then. The sum of the five work values should give you the total work done.
[Addendum: Or perhaps you could use this:
work = 0;
for k = 2:length(t)
work = work + (F(k)*v(k)+F(k-1)*v(k-1))/2*(t(k)-t(k-1));
end
because you are approximating the integral of F*v with respect to time, t.]
2 Comments
Roger Stafford
on 28 Mar 2018
Edited: Roger Stafford
on 28 Mar 2018
" I just tried both those sections of code you included and they give different answers." Yes, they are not identical, but are different approximations. Assuming F and v vary in a reasonably smooth fashion, they should not be greatly different. It is the difference between
(F(k)*v(k)+F(k-1)*v(k-1))/2
and
(F(k)*v(k)+F(k)*v(k-1)+F(k-1)*v(k)+F(k-1)*v(k-1))/4
It is not clear which of these best represents the trapezoidal rule. I would hazard the guess that the first of these (that is, the second in the answer) is likely to be the best.
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