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I have a function y=0.05*x.^2 - 0.24*x+(1/(x.^2+1)).

1) I want to find the slope for x [-4,4] , so I do

syms x;
y=0.05*x.^2 - 0.24*x+(1/(x.^2+1))

and I am finding the values of y'(x) for the different values of x. (the result is : -0.6123 -0.4800 -0.2800 0.1600 -0.2400 -0.6400 -0.2000 0 0.1323)

Now, I want to determine all the peaks and valleys of the slope. To find this , I take from the results that for x=3 i have y'(3)=0 => I have a critical point.

So, to find the peaks and valleys I need to see the sign left and right from point 3,right? So, for x=-4,-2 =>valley , x=-2,-1 peak, x=-1,0 valley, x=0,2 valley , x=2,4 peak.

Is this right? Also,for plotting the slope I use ezplot(der) ?

2) I need to find the drop of the slope (difference between largest ans smallest value of y). How can I find that, since y is symbolic?

3) If I want to find the slope in degrees, how can I do it?

4) If I have x and t data (position and time) and I want to compute the velocity, I just do?



For my last question i have:




But the problem is that vel vector results in 1x12 vector instead 1x13.Why is that?

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time(1) = 0; which evidentely yields to Inf when calculating v. that explains why vel has 12 values instead of 13. – fpe Feb 6 '13 at 19:21
@fpe:And is there a way to make the plot? – George Feb 6 '13 at 19:26
avoiding time(1) which leads to vel(1) = Inf, you may call plot(time(2:end),vel). btw,what vel represents? Seems to me it's an acceleration – fpe Feb 6 '13 at 19:35
@fpe:Ok , thanks! – George Feb 6 '13 at 19:41

1 Answer 1

up vote 2 down vote accepted

I am not really familiar with matlab, but I am going to give you some pointers with respect to the math. You define:

 y(x) = 0.025*x^2 - 0.24*x + (1/(x^2+1))

This is the blue curve in the added picture. We can take the derivative with respect to x to find:

 dy(x)/dx = 0.1*x - 0.24 - (2*x/(1+x^2)^2)

which is the purple curve. I do not really know what you mean with 'peaks' and 'valleys' but if you mean maxima and minima of y(x) respectively than your answer is incorrect. Maxima or minima in y(x) can be found by finding the values of x where the derivative dy/dx is zero. You can confirm this by looking at the picture. At x=3 red curve is zero because y(x) has a minimum there. (Note that by finding a point x where the derivative is zero, does not tell you whether it is in fact a maximum or a minimum, just that it is an extremum).

Plot of y(x) and the derivative with respect to x, dy/dx

2) You can find the drop in the curve as follows. First determine the values of x of the maximum and the minimum x1 and x2 (i.e. solve dy(x)/dx == 0). The drop is then abs( y(x1) - y(x2) ).

3) Officially the curve does not have one slope - it is curved so its slope varies with x. However if you mean the average slope between the max and min than it is simple geometry. You have the displacement in x and y, look into the function tan and you will be able to find the answer.

Good luck

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