x(t) = 3te ^(−2t) + 5e ^(−2t) Classify as un-damped, under-damped, over-damped, or critically damped.

Classify and solve the differential equation y''-y' = 5e^x - sin2x

Classify and solve the differential equation y''-y' = 5e^x - sin2x

Consider the second order differential equation d2/dt^2 x + 6 dx/dt + 10x = 0. Classify...

Consider the second order differential equation d2/dt^2 x + 6 dx/dt + 10x = 0. Classify the harmonic oscillator (undamped, underdamped, critically damped, over damped). Justify your answer.

find t? x= 2cos(t)+ sin(2t) y=2sin(t)+cos(2t) when x= 0, y= -3

find t? x= 2cos(t)+ sin(2t) y=2sin(t)+cos(2t) when x= 0, y= -3

Solve the following differential equations: x"(t)- 4'x(t)+4x(t)=4cos(2t) ; x(0)= 2, x'(0)= 5

Solve the following differential equations: x"(t)- 4'x(t)+4x(t)=4cos(2t) ; x(0)= 2, x'(0)= 5

The position x(t), of a damped oscillator with forcing satisfies the ordinary differential equation , i)...

The position x(t), of a damped oscillator with forcing satisfies the ordinary differential equation , i) where f(t) denotes the forcing on the oscillator. (i) If x(0) = 0, dx dt (0) = 1, f(t) = 4t and the Laplace transform of x(t) is denoted X(s) = L[x(t)], then show that X(s) = 1 /(s + 2)^2 + 4 /s^2 (s + 2)^2 ii) Hence find x(t)

Solve this Initial Value Problem using the Laplace transform. x''(t) - 9 x(t) = cos(2t), x(0)...

Solve this Initial Value Problem using the Laplace transform. x''(t) - 9 x(t) = cos(2t), x(0) = 1, x'(0) = 3

Question 4. f(t)=2t^3+2 What is the approximate area under the graph of f(t) on the interval...

Question 4. f(t)=2t^3+2 What is the approximate area under the graph of f(t) on the interval [0, 6] using two rectangles of equal width and left endpoints?  

the system y(t)=t^2*x(2t) linear and time invariant ? justify your answer

the system y(t)=t^2*x(2t) linear and time invariant ? justify your answer

use Laplace transformations to solve initial value problem x''+4x=cos(t), x(0)=0, x'(0)=0 set up the appropriate form...

use Laplace transformations to solve initial value problem x''+4x=cos(t), x(0)=0, x'(0)=0 set up the appropriate form of a particular solution, do not determine coefficients, y''+6y'+13y=e-3x cos2x find the Laplace transformation of the following function f(t)=4cos(2t) + 7t3 - 5e-3t

Find the average value of the function f(t) = 3t^2 - 2t over the interval [-1,3]....

Find the average value of the function f(t) = 3t^2 - 2t over the interval [-1,3]. Show all work please.