The method you use probably should be guided by topics you are currently studying.Kqwert said:Homework Statement
Find a > 0 so the integral
int(exp(-ax)*cosx)dx from 0 to inf get as high value as possible.
The Attempt at a Solution
My way of solving this is to plot the integrand, i.e. exp(-ax)*cosx and check for different values of a. The larger a is, the smaller the area under the curve from 0 to inf gets, i.e. a should be as small as possible.
Is this the correct way of doing it?
Sorry, I misunderstood the question. You should calculate the integral and determine the value of a that gives a minimum. To do that, it may be necessary to take the derivative of the integral with respect to a and determine when it is 0.Kqwert said:But how do I do that when a is unknown? I know how to derivate the function, but not what I know from doing that.
Yes, that is correct.Kqwert said:So I calculated the integral, which resulted in a/(a^2+1). This has a maximum value for a = 1, i.e. a should be 1. Is this correct?
The maximum value of an integral is the largest possible numerical value that can be obtained by evaluating the integral over a given interval.
The maximum value of an integral can be determined by using mathematical techniques such as the first and second derivative tests, or by graphing the function and finding the highest point on the curve within the given interval.
No, an integral can only have one maximum value within a given interval.
Yes, the maximum value of an integral may change if the interval is changed. It is important to evaluate the integral over the entire interval of interest to determine the true maximum value.
No, the maximum value of an integral can be positive, negative, or zero. It depends on the function being integrated and the interval of integration.