Write these equations in explicit form x' = x^(2) - t^(2) y' = sin(y) mr' +...

Write these equations in explicit form: x' = x^(2) - t^(2) y' = sin(y) mr' +...

Write these equations in explicit form: x' = x^(2) - t^(2) y' = sin(y) mr' + rm + e^(m+r) = 0

Put these equations in explicit form: a) y' = -y(y-2) b) y' = sin(t) c) ty'...

Put these equations in explicit form: a) y' = -y(y-2) b) y' = sin(t) c) ty' = ycos(t)

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.

Solve (2xy/x^2+1-2x)dx-(2-ln(x^2+1))dy=0, y(5)=0. Write the solution in the explicit form. please explain steps Thanks!

Solve (2xy/x^2+1-2x)dx-(2-ln(x^2+1))dy=0, y(5)=0. Write the solution in the explicit form. please explain steps Thanks!

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),...

Differential equations Given that x1(t) = cos t is a solution of (sin t)x′′ − 2(cos...

Differential equations Given that x1(t) = cos t is a solution of (sin t)x′′ − 2(cos t)x′ − (sin t)x = 0, find a second linearly independent solution of this equation.

Consider the parametric curve C defined by the parametric equations x = 3cos(t)sin(t) and y =...

Consider the parametric curve C defined by the parametric equations x = 3cos(t)sin(t) and y = 3sin(t). Find the expression which represents the tangent of line C. Write the equation of the line that is tangent to C at t = π/ 3.

Solve the following Differential equations a) x sin y dx + (x^2 + 1) cos y...

Solve the following Differential equations a) x sin y dx + (x^2 + 1) cos y dy = 0

Differential Equations (a) Write the function x(t)=−2cos(4t)+5sin(4t)x(t)=−2cos(4t)+5sin(4t) in the form x(t)=Acos(ωt−ϕ)x(t)=Acos⁡(ωt−ϕ). x(t)=   (b) Write the function...

Differential Equations (a) Write the function x(t)=−2cos(4t)+5sin(4t)x(t)=−2cos(4t)+5sin(4t) in the form x(t)=Acos(ωt−ϕ)x(t)=Acos⁡(ωt−ϕ). x(t)=   (b) Write the function x(t)=2cos(4t)+5sin(4t)x(t)=2cos(4t)+5sin(4t) in the form x(t)=Acos(ωt−ϕ)x(t)=Acos⁡(ωt−ϕ). x(t)=   (c) Write x(t)=e−3t(−2cos(4t)+5sin(4t))x(t)=e−3t(−2cos(4t)+5sin(4t)) in the form y(t)=Aeαtcos(ωt−ϕ)y(t)=Aeαtcos⁡(ωt−ϕ). x(t)=

Consider the parametric equations below. x = t sin(t),    y = t cos(t),    0 ≤ t ≤ π/3...

Consider the parametric equations below. x = t sin(t),    y = t cos(t),    0 ≤ t ≤ π/3 Set up an integral that represents the area of the surface obtained by rotating the given curve about the x-axis. Use your calculator to find the surface area correct to four decimal places