1. The Wronskian of the function x(t) = sin^3 t and an unknown function y(t) is...

1. Graph the curve given in parametric form by x = e t sin(t) and y...

1. Graph the curve given in parametric form by x = e t sin(t) and y = e t cos(t) on the interval 0 ≤ t ≤ π2. 2. Find the length of the curve in the previous problem. 3. In the polar curve defined by r = 1 − sin(θ) find the points where the tangent line is vertical.

Let y1 and y2 be two solutions of the equation y'' + a(t)y' + b(t)y =...

Let y1 and y2 be two solutions of the equation y'' + a(t)y' + b(t)y = 0 and let W(t) = W(y1, y2)(t) be the Wronskian. Determine an expression for the derivative of the Wronskian with respect to t as a function of the Wronskian itself.

Rewrite the function y = sin(x) + √3cos(x) in the form y = Asin(x + α),...

Rewrite the function y = sin(x) + √3cos(x) in the form y = Asin(x + α), and find the amplitude and period

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find...

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find the function y2(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y2(0)=0, y′2(0)=1. y2(t)= ? Find the Wronskian of these two solutions you have found: W(t)=W(y1,y2). W(t)=?

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

[Cauchy-Euler equations] For the following equations with the unknown function y = y(x), find the general...

[Cauchy-Euler equations] For the following equations with the unknown function y = y(x), find the general solution by changing the independent variable x to et and re-writing the equation with the new unknown function v(t) = y(et). x2y′′ +xy′ +y=0 x2y′′ +xy′ +4y=0 x2y′′ +xy′ −4y=0 x2y′′ −4xy′ −6y=0 x2y′′ +5xy′ +4y=0.

For the curve x = t - sin t, y = 1 - cos t find...

For the curve x = t - sin t, y = 1 - cos t find d^2y/dx^2, and determine where the curve is concave up and down.

Eliminate the parameter to find a Cartesian equation of the curves: a) x=3t+2,y=2t−3 b) x=21​sin(t)−3,y=2cos(t)+5

Eliminate the parameter to find a Cartesian equation of the curves: a) x=3t+2,y=2t−3 b) x=21​sin(t)−3,y=2cos(t)+5

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form....

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form. Then find the integrating factor, ρ(t)= and finally find y(t)=

A sine wave on a string is described by the wave function y (x, t) =...

A sine wave on a string is described by the wave function y (x, t) = 5.50 sin (0.70x-60.00t) where x and y are in meters and t in seconds. The mass per unit length of this rope is 11.00 g / m. Determine (a) the wavelength, (b) the average power transmitted by the wave. a 8.98 m, 95464.29 W b 0.10 m, 212.14 W c 0.10 m, 95464.29 W d 8.98 m, 212.14 W