Topic: Differential Equations, Laplace Transform, particular solutions Please explain what is a Laplace transform, why it...

Given use Laplace transform to solve the following systems of differential equations. 2x' - y' -...

Given use Laplace transform to solve the following systems of differential equations. 2x' - y' - z' = 0 x' + y' = 4t + 2 y' + z = t2 + 2 SUBJECT = ORDINARY DIFFERENTIAL EQUATIONS TOPIC = LAPLACE TRANSFORM

Differential Equations 3a. Use the integral definition of the Laplace transform to show that  Carefully indicate the...

Differential Equations 3a. Use the integral definition of the Laplace transform to show that  Carefully indicate the range of s for which the Laplace transform is defined, and clearly show where you use this in your calculations. b. Calculate the convolution

Use the Laplace transform to solve the given system of differential equations. dx dt = −x...

Use the Laplace transform to solve the given system of differential equations. dx dt = −x + y dy dt = 2x x(0) = 0, y(0) = 2

Use the Laplace transform to solve the given system of differential equations. 2 dx/dt + dy/dt...

Use the Laplace transform to solve the given system of differential equations. 2 dx/dt + dy/dt − 2x = 1 dx/dt + dy/dt − 6x − 6y = 2 x(0) = 0, y(0) = 0

Use the method for solving Bernoulli equations to solve the following differential equation. (dy/dx)+4y=( (e^(x))*(y^(-2)) )...

Use the method for solving Bernoulli equations to solve the following differential equation. (dy/dx)+4y=( (e^(x))*(y^(-2)) ) Ignoring lost solutions, if any, the general solution y= ______(answer)__________ (Type an expression using x as the variable) THIS PROBLEM IS A DIFFERENTIAL EQUATIONS PROBLEM. Only people proficient in differential equations should attempt to solve. Please write clearly and legibly. I must be able to CLEARLY read your solution and final answer. CIRCLE YOUR FINAL ANSWER.

Find the particular integral of the following differential equations.(Explain each step clearly) (a) d2y/dx2 + y...

Find the particular integral of the following differential equations.(Explain each step clearly) (a) d2y/dx2 + y = (x + 1) sin x. (Hint:In this case, we substitute sin αx or cos αx with eiαx then use the shift operator. In the case of sin αx we extract the imaginary part.)

Find the particular integral of the following differential equations.(Explain each step clearly) (a) d2y/dx2 + y...

Find the particular integral of the following differential equations.(Explain each step clearly) (a) d2y/dx2 + y = (x + 1) sin x. (Hint:In this case, we substitute sin αx or cos αx with eiαx then use the shift operator. In the case of sin αx we extract the imaginary part.)

Application of the first order differential equations, from "Differential Equations", by Isabel Carmona. 2. A body...

Application of the first order differential equations, from "Differential Equations", by Isabel Carmona. 2. A body with a mass of 9.7 kg is released from a height of 300 m without initial speed. The body finds an air resistance proportional to its speed. If the speed limit must be 95 m/sec... Find A) body speed at a time t B) the position of the body at a time t The correct answers are: A) v = 95 (1-e(- t /...

Differential Equations: Please try to computer type, if not possible be clear and organize. Thank you...

Differential Equations: Please try to computer type, if not possible be clear and organize. Thank you so much Use the Method of Undetermined Coefficients to solve the de y’’’’ – 4y’’ = x^2+e^x

1. Explain the principle of differential centrifugation and its applications. What is the difference between differential...

1. Explain the principle of differential centrifugation and its applications. What is the difference between differential centrifugation and rate-zonal centrifugation? 2. When we quote centrifugation conditions in a protocol, what information do we need to provide? Why is it better to quote relative centrifugal force rather than speed (revolutions per minute) when writing a centrifugation protocol? 3. The two eukaryotic ribosomal subunits are referred to as the 40S and the 60S ribosomal subunits. Yet the intact ribosome is referred to...