Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉r1=〈sin⁡(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉.r2=〈cos⁡(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for the points is given by T(x,y,z)=x^2y(1−z), use the Chain Rule to determine the rate of change of the difference D in the temperatures the two spacecraft experience at time t=3. (Use decimal notation. Give your answer to two decimal places.)

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for the points is given by T(x,y,z)=x^2y(8−z), use the Chain Rule to determine the rate of change of the difference D in the temperatures the two spacecraft experience at time t=1. (Use decimal notation. Give your answer to two decimal places.)

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt,...

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt, dy/dt, and dz/dt and using the chain rule dx/dt = dy/dt= dz/dt= now using the chain rule calculate dw/dt 0=

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

Let z(s,t) z(s,t) be a differentiable function of two variable s and t with continuous first...

Let z(s,t) z(s,t) be a differentiable function of two variable s and t with continuous first partial derivatives. Assume further that s=s(x,y), t=t(x,y) are differentiable functions of variables x and y . (a) find the general chain rule chain rule for (∂z/∂x)y . Your subscripts will be marked. (b) Let equations F(x,y,s,t)=y+x^2+cos(t)−sin(s)+1=0, G(x,y,s,t)=x+y^2−st−2=0, implicitly define s , and t as functions of x and y . Compute ∂s/∂x)y ∂t/∂x)y at the point P(x,y,s,t)=(1,−1,π,0). (c) Let now z(s,t)=s^2+t. By using the...

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),...

- Given cos(x)=-1/12 with 180°<x<270°. Find cos(x/2) - Given sin(x)= (squareroot 5)/3 where x is an...

- Given cos(x)=-1/12 with 180°<x<270°. Find cos(x/2) - Given sin(x)= (squareroot 5)/3 where x is an acute angle. Find sin(x/2)

The wave functions of two waves traveling in the same direction are given below. The two...

The wave functions of two waves traveling in the same direction are given below. The two waves have the same frequency, wavelength, and amplitude, but they differ in their phase constant. y1 (x,t) = 2 sin⁡(2πx ‒ 20πt), and y2 (x,t) = 2 sin(2πx ‒ 20πt + φ), a)where, y is in centimetres, x is in meters, and t is in seconds. Which of the following wave functions represents the resultant wave due to the interference between the two waves:...

Use the Chain Rule to find dz/dt. (Enter your answer only in terms of t.) z=sqrt(1+x^2+y^2),...

Use the Chain Rule to find dz/dt. (Enter your answer only in terms of t.) z=sqrt(1+x^2+y^2), x=ln(t), y=cos(t) dz/dt=

7. For the parametric curve x(t) = 2 − 5 cos(t), y(t) = 1 + 3...

7. For the parametric curve x(t) = 2 − 5 cos(t), y(t) = 1 + 3 sin(t), t ∈ [0, 2π) Part a: (2 points) Give an equation relating x and y that represents the curve. Part b: (4 points) Find the slope of the tangent line to the curve when t = π 6 . Part c: (4 points) State the points (x, y) where the tangent line is horizontal