How do you solve the Heisenberg equations of motion in order to find the time-dependent raising/lowering...

Consider a one-dimensional harmonic oscillator, in an energy eigenstate initially (at t=t0), to which we apply...

Consider a one-dimensional harmonic oscillator, in an energy eigenstate initially (at t=t0), to which we apply a time dependent force F(t). Write the Heisenberg equations of motion for x and for p. Now suppose F is a constant from time t0 to time t0+τ(tau), and zero the rest of the time. Find the average position of the oscillator <x(t)> as a function of time, after the force is switched off. Find the average amount of work done by the force,...

How do you determine a system of linear equations needed to solve for the current on...

How do you determine a system of linear equations needed to solve for the current on wires in a circuit/how do you solve for these system of equations?

.1.) Modelling using second order differential equations a) Find the ODE that models of the motion...

.1.) Modelling using second order differential equations a) Find the ODE that models of the motion of the dumped spring mass system with mass m=1, damping coefficient c=3, and spring constant k=25/4 under the influence of an external force F(t) = cos (2t). b) Find the solution of the initial value problem with x(0)=6, x'(0)=0. c) Sketch the graph of the long term displacement of the mass m.

Python: We want to find the position, as a function of time, of a damped harmonic...

Python: We want to find the position, as a function of time, of a damped harmonic oscillator. The equation of motion is              m d2x/dt2 = -kx – b dx/dt,      x(0) = 0.5, dx/dt (0) = 0 Take m = 0.25 kg, k = 100 N/m, and b = 0.1 N.s/m. Solve x(t) for t in the interval [0, 10T], where T = 2π/ω, and ω2 = k/m. please write the code. Divide the interval into N = 104 intervals:...

Equations of motion are used to describe the velocity (speed and direction) as well as distance...

Equations of motion are used to describe the velocity (speed and direction) as well as distance travelled by projectiles when they are launched or thrown. The following equation is used to model this model this movement: ℎ = −16?2 + ?0? + ℎ0 A ball is launched upward at 48 feet/second from a platform that is 100 feet high. Find the maximum height the ball reaches and how long it will take to get there. a) Substitute the appropriate values...

Describe in your own words how do you solve the set of linear equations given below...

Describe in your own words how do you solve the set of linear equations given below using Matlab and Excel (procedures). Calculate X, Y and Z using one of the methods. 4X-7Y+8Z = 3 3X+5Y-6Z = 5 5X-9Y+2Z = 8

How do you solve for Find the value of P for which the inflows will equal...

How do you solve for Find the value of P for which the inflows will equal the outflows. Find the effective rate first. Rate 21% p y c d Year Outflows Inflows 0 -P 1 -2P 2 -4P 3 -8P 4 -16P 5 $24,000 6 $30,000 7 $36,000 8 $42,000 9 $48,000 10 $54,000 Right Answer: $2,856

In an engine, a piston oscillates with simple harmonic motion so that its position varies according...

In an engine, a piston oscillates with simple harmonic motion so that its position varies according to the expression, x = 3.00 cos(t+π/4) (a) At t = 0, find the position of the piston.where x is in centimeters and t is in seconds. We are given x as a function of time. For any x(t) you can determine the position at a particular time by putting that value into the function. cm (b) At t = 0, find velocity of...

How do you use Gaussian Elimination to work this one out? Solve a system of linear...

How do you use Gaussian Elimination to work this one out? Solve a system of linear equations to find the quadratic polynomial y = ax^2 + bx + c whose graph passes through the three points (x1, y1) = (1, 4), (x2, y2) = (2, 2) and (x3, y3) = (3, −2).

solve equations, and show work, please! use equation deltax= 1/2at^2 + vit= xf-xi to apply with...

solve equations, and show work, please! use equation deltax= 1/2at^2 + vit= xf-xi to apply with equation yf= yi +1/2(-9.8)t^2 + viyt yf= 0 yi= 10 m viy=0 Once you find t, time , plug into the x motion, xf= xi + 1/2 (0) t^2 + vixt xf= 10 m xi= 0 then compute vi= vix Please show work