Solve the one-loop L-R-C circuits with the following data: L=3henry, R=10ohms, C=0.1farad, E(t)=0volts, andQ(0)=0coulombs, I(0) =...

A RLC circuit, L=1H, C=0.002F, R=5 ohm q(0)=0, i(0)=0 E(t)=10-10u(t-0.5) Find q(t) using Laplace transform

A RLC circuit, L=1H, C=0.002F, R=5 ohm q(0)=0, i(0)=0 E(t)=10-10u(t-0.5) Find q(t) using Laplace transform

i) F o r t h e f o l l o w I n g...

i) F o r t h e f o l l o w I n g f i n d t h e ( c o m p. E x p.) f o u r I e r s e r i e s f o r x( t ) I I ) D r a w t h e am p &. P h a s e s p e c t r a I I I ) T...

Use variation of parameters to solve the following differential equations y''+4y'+4y=e^(t)tan^-1(t)

Use variation of parameters to solve the following differential equations y''+4y'+4y=e^(t)tan^-1(t)

Suppose L=20 henrys, R = 10 ohms, C = 1/200 farads, E = 50 volts, q(0)...

Suppose L=20 henrys, R = 10 ohms, C = 1/200 farads, E = 50 volts, q(0) = 12 coulombs, and q'(0) = l(0) = 0. Formulate and solve an initial value problem that models the given LRC circuit. q(t) = ?

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

Solve the following differential equations 1. cos(t)y' - sin(t)y = t^2 2. y' - 2ty =...

Solve the following differential equations 1. cos(t)y' - sin(t)y = t^2 2. y' - 2ty = t Solve the ODE 3. ty' - y = t^3 e^(3t), for t > 0 Compare the number of solutions of the following three initial value problems for the previous ODE 4. (i) y(1) = 1 (ii) y(0) = 1 (iii) y(0) = 0 Solve the IVP, and find the interval of validity of the solution 5. y' + (cot x)y = 5e^(cos x),...

Solve the differential equation with initial value y''−2y'+y=e^t/(1+t^2), y(0) = 1, y'(0) = 0.

Solve the differential equation with initial value y''−2y'+y=e^t/(1+t^2), y(0) = 1, y'(0) = 0.

Solve the following initial-value differential equations using Laplace and inverse transformation. y''-y=delta(t-3),   y(0)=0,   y'(0)=1

Solve the following initial-value differential equations using Laplace and inverse transformation. y''-y=delta(t-3),   y(0)=0,   y'(0)=1

The position of an object at time t is given by: r(t)=e^−t i + e^t j...

The position of an object at time t is given by: r(t)=e^−t i + e^t j − t√2 k, 0≤ t<∞. (a) Determine the velocity v and the speed of the object at time t. (b) Determine the acceleration of the object at time t. (c) Find the distance that the object travels during the time interval 0≤ t<ln3. Answers: (a) = velocity: v =−e^−t i + e^t j − √2 k; speed: ||v||= e^t + e^−t, (b) = acceleration:...

Use the method for solving Bernoulli equations to solve the following differential equation dx/dy+5t^7x^9+x/t=0 in the...

Use the method for solving Bernoulli equations to solve the following differential equation dx/dy+5t^7x^9+x/t=0 in the form F(t,x)=c