Consider the differential equation: F = ma where F = -kx + ? cos (?? )...

Let f(x) = 2a^(2x) for some positive constant a. Express f(kx+2) in terms of f(x) if...

Let f(x) = 2a^(2x) for some positive constant a. Express f(kx+2) in terms of f(x) if k is a positive constant. 2) Determine the period, amplitude, phase shift and vertical shift of y = 3 cos(2x - 2PI/5) + 1.5. Draw the graph over 2 cycles. 3) Draw the graph f(x) = (2x + 1)/(x^2 - 1)

A standing wave’s function is y(x,t) = Asin(kx)cos(?t). Prove that this equation is indeed a solution...

A standing wave’s function is y(x,t) = Asin(kx)cos(?t). Prove that this equation is indeed a solution to the wave equation.

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt =...

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt = r(1 − cos(ωt))P b. Solve the following differential equation: y'(x) + 4xy(x) = 2xe^(−x^ 2)

Consider the function f(x) = 4 + x cos x. Write an equation for : a)...

Consider the function f(x) = 4 + x cos x. Write an equation for : a) A function g(x) such that the graph of g(x) is the graph of f(x), shifted 3 units to the right and scaled with factor 1 vertically. b) A function h(x) such that the graph of h(x) is the graph of f(x), compressed by a factor 3 horizontally and reflected about the y-axis.

Show that x(t) = A sin(wt) sin(kx) satisfies the wave equation, where w and k are...

Show that x(t) = A sin(wt) sin(kx) satisfies the wave equation, where w and k are some constants. Find the relation between w, k, and v so that the wave equation is satisfied.

A sound wave of the form s = sm cos(kx - ?t + f) travels at...

A sound wave of the form s = sm cos(kx - ?t + f) travels at 343 m/s through air in a long horizontal tube. At one instant, air molecule A at x = 2.000 m is at its maximum positive displacement of 6.00 nm and air molecule B at x = 2.070 m is at a positive displacement of 2.00 nm. All the molecules between A and B are at intermediate displacements. What is the frequency of the wave?

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡...

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡ x d x + ( 1 + 2 y ) sin ⁡ x d y = 0 into an exact one. Then solve the new exact differential equation.

a) The homogeneous and particular solutions of the differential equation ay'' + by' + cy =...

a) The homogeneous and particular solutions of the differential equation ay'' + by' + cy = f(x) are, respectively, C1exp(x)+C2exp(-x) and 3x^3. Give the complete solution y(x) of the differential equation. b) If the force f(x) in the equation given in a) is instead f(x) = f1(x) + f2(x) + f3(x), where f1(x), f2(x), and f3(x) are generic forces, what would be the particular solution? c) The homogeneous solution of a forced oscillator is cos(t) + sin(t), what is the...

Consider the driven damped harmonic oscillator m(d^2x/dt^2)+b(dx/dt)+kx = F(t) with driving force F(t) = FoSin(wt). Consider...

Consider the driven damped harmonic oscillator m(d^2x/dt^2)+b(dx/dt)+kx = F(t) with driving force F(t) = FoSin(wt). Consider the overdamped case (b/2m)^2 < k/m a. Find the steady state solution. b. Find the solution with initial conditions x(0)=0, x'(0)=0. c. Use a plotting program to plot your solution for m=1, k=0.1, b=1, Fo=0.25, and w=0.5.

solve the given differential equation by variation of parameters. y”+y=1/cos(x)

solve the given differential equation by variation of parameters. y”+y=1/cos(x)