Below you can find the full step by step solution for you problem. We hope it will be very helpful for you and it will help you to understand the solving process.
(0.01/(r^2))'The calculation above is a derivative of the function f (x)
0
| Derivative of 0.96e^8t | | Derivative of 0.9e^8t | | Derivative of 4ln(100-x) | | Derivative of (0.2)*sin(x) | | Derivative of e^-1/2t | | Derivative of 4x^4e^2x | | Derivative of X^2-4/x^2-9 | | Derivative of 5(3.14)x^2 | | Derivative of (e^2x) | | Derivative of (x-sin(x))/(x^3) | | Derivative of (x^2)(1-5x) | | Derivative of x^2(1-5x) | | Derivative of x^8/3-4x^5/3 | | Derivative of 2*(Sin(ln(x))) | | Derivative of 300*(1.094)^x | | Derivative of 7*tan(x) | | Derivative of 500x^(1/2) | | Derivative of 1000x^(1/2) | | Derivative of 1000x^1/2 | | Derivative of (5/3)*x^(2/3) | | Derivative of 5^(5/3) | | Derivative of 5^5/3 | | Derivative of 6x^-3 | | Derivative of 9/x^4 | | Derivative of 2(x^3-x)^4 | | Derivative of 2(t^3-5)^5 | | Derivative of (5-x)^3 | | Derivative of (9x^2)-(4x)-(6x^-2) | | Derivative of 9x^3 | | Derivative of -6x^-2 | | Derivative of 11(x)^2 | | Derivative of ln(cos(pi/x)) |