Suppose an infinite string is hit with a hammer, so that the initial conditions are given...

Find the solution of the wave equation on the interval [0, 1] with Dirichlet boundary conditions...

Find the solution of the wave equation on the interval [0, 1] with Dirichlet boundary conditions and initial conditions u0 = 0 and v0 = { x if 0 <= x <= 1/2, 1 - x if 1/2 <= x <= 1

Obtain the kinematic equations for constant acceleration by making use of: - the initial conditions -...

Obtain the kinematic equations for constant acceleration by making use of: - the initial conditions - the definitions of velocity and acceleration as derivatives: v=dx/dt, a=dv/dt - and the Fundamental Theorem of Calculus. You should use the instantaneous kinematic quantities defined by calculus and the anti derivatives for obtaining the equations of motion at constant acceleration: Ex: a=dv/dt, dv=adt, v=at+C, at t=0 v=v0 so v=v0+at, and so on. PLEASE SHOW ALL WORK.

6. a) Use the given acceleration function and initial conditions to find the position at time...

6. a) Use the given acceleration function and initial conditions to find the position at time t = 1. a(t) = 6i + 10j + 8k, v(0) = 4k, r(0) = 0 b) Find the arc length for r(t) = 3 cos t i + 3 sin t j, [ 0 , 6 ]

Solve ut=uxx, 0 < x < 3, given the following initial and boundary conditions: - u(0,t)...

Solve ut=uxx, 0 < x < 3, given the following initial and boundary conditions: - u(0,t) = u(3,t) = 1 - u(x,0) = 0 Please write clearly and explain your reasoning.

Suppose a golf ball is hit off the tee with an initial velocity of 30.0 m/s...

Suppose a golf ball is hit off the tee with an initial velocity of 30.0 m/s at an angle of 35 degree to the horizontal a) What is the displacement on horizontal X axis? b) What is the displacement on vertical Y axis? c) What is the flight time? d) List all the vector quantities in the question. e) List all the scalar quantities in the question.

Given the second-order differential equation y''(x) − xy'(x) + x^2 y(x) = 0 with initial conditions...

Given the second-order differential equation y''(x) − xy'(x) + x^2 y(x) = 0 with initial conditions y(0) = 0, y'(0) = 1. (a) Write this equation as a system of 2 first order differential equations. (b) Approximate its solution by using the forward Euler method.

Use the Laplace transform to solve the following, given the initial conditions: y^'' +5y^'+4y = 0...

Use the Laplace transform to solve the following, given the initial conditions: y^'' +5y^'+4y = 0 y(0)=1,y^' (0)=0.

For the below ordinary differential equation with initial conditions, state the order and determine if the...

For the below ordinary differential equation with initial conditions, state the order and determine if the equation is linear or nonlinear. Then find the solution of the ordinary differential equation, and apply the initial conditions. Verify your solution. x^2/(y^2-1) dy/dx=(3x^3)/y, y(0)=2

1. Solve the following IVP's given the initial conditions: a) y'(t) - 10(√t)y(t) = e(20/3)(t^3/2) ;...

1. Solve the following IVP's given the initial conditions: a) y'(t) - 10(√t)y(t) = e(20/3)(t^3/2) ; y(0) = 2 b) x' - 2x = (et)(cos(t)) ; x(0) = 5 c) dx/dt + (1/t)x = ln(t) ; x(1) = 1/2

Choose C so that y(t) = −1/(t + C) is a solution to the initial value...

Choose C so that y(t) = −1/(t + C) is a solution to the initial value problem y' = y2 y(2) = 3. Verify that the given formula is a solution to the initial value problem. x′ = −y, y′ = x, x(0) = 1, y(0) = 0: x(t) = cost, y(t) = sin t