Use time-shift property to find the Laplace-image of a.)sin(t-b) *1(t-b) b.) cos^2(t-b)*1(t-b)

Derive the Laplace transform for the following time functions: a. sin ωt u(t) b. cos ωt...

Derive the Laplace transform for the following time functions: a. sin ωt u(t) b. cos ωt u(t)

Find the laplace transform of sin root t and hence deduce cos root t all over...

Find the laplace transform of sin root t and hence deduce cos root t all over root t

Derive the Laplace transform of the following time domain functions A) 12 B) 3t sin(5t) u(t)...

Derive the Laplace transform of the following time domain functions A) 12 B) 3t sin(5t) u(t) C) 2t^2 cos(3t) u(t) D) 2e^-5t sin(5t) E) 8e^-3t cos(4t) F) (cost)&(t-pi/4)

Find the Laplace Transform of the following functions: 1. e^(-2t+1) 2. cos^2(2t) 3. sin^2(3t)

Find the Laplace Transform of the following functions: 1. e^(-2t+1) 2. cos^2(2t) 3. sin^2(3t)

find laplace transform of a)1+e-t                                    b)sin3t  

find laplace transform of a)1+e-t                                    b)sin3t                                      c)sin(squaret)+cos(squaret) i want all the questions dont incomplete answers.i will give dis like

Use the definition of the Laplace transform to find the transform of: f(t)= at+ b cos(2t),...

Use the definition of the Laplace transform to find the transform of: f(t)= at+ b cos(2t), where a, b are real numbers. Please solve using simple and easy to follow steps (here for learning not for answers) Thanks

If u(t) = sin(6t), cos(2t), t and v(t) = t, cos(2t), sin(6t) , use Formula 4...

If u(t) = sin(6t), cos(2t), t and v(t) = t, cos(2t), sin(6t) , use Formula 4 of this theorem to find d dt u(t) · v(t) .

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.

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t)...

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t) ,    t > 0 (a) Find the unit tangent and unit normal vectors T(t) and N(t). T(t) = N(t) = (b) Use this formula to find the curvature. κ(t) =

1291) Determine the Inverse Laplace Transform of F(s)=(6s + 14)/(s^2+28s+452). The answer is f(t)=A*exp(-alpha*t)*cos(w*t) + B*exp(-alpha*t)*sin(w*t)....

1291) Determine the Inverse Laplace Transform of F(s)=(6s + 14)/(s^2+28s+452). The answer is f(t)=A*exp(-alpha*t)*cos(w*t) + B*exp(-alpha*t)*sin(w*t). Answers are: A,B,alpha,w where w is in rad/sec and alpha in sec^-1. ans:4 1292) Determine the Inverse Laplace Transform of F(s)=(6s + 14)/(s^2+28s+452). The answer is f(t)=Q*exp(-alpha*t)*sin(w*t+phi). Answers are: A,alpha,w,phi where w is in rad/sec and phi is in rad ans:4 Please help me solve this. Thanks