Consider the following parametric equation. x=4(cosθ + θsinθ) y=4(sinθ − θcosθ) What is the length of...

The tangent line to the cycloid x=r (θ -sinθ) y=r (1-cosθ) with r=1.21at θ =π/4 has...

The tangent line to the cycloid x=r (θ -sinθ) y=r (1-cosθ) with r=1.21at θ =π/4 has a slope of_____ and the y-intercept_____

The y-intercept of the tangent line to the cycloid x=r (θ-sinθ) y=r(1-cosθ) with r = 2.01...

The y-intercept of the tangent line to the cycloid x=r (θ-sinθ) y=r(1-cosθ) with r = 2.01 at the point where θ=π/3 is____. ( Keep three decimal places.)

4) Consider the polar curve r=e2theta a) Find the parametric equations x = f(θ), y =...

4) Consider the polar curve r=e2theta a) Find the parametric equations x = f(θ), y = g(θ) for this curve. b) Find the slope of the line tangent to this curve when θ=π. 6) a)Suppose r(t) = < cos(3t), sin(3t),4t >. Find the equation of the tangent line to r(t) at the point (-1, 0, 4pi). b) Find a vector orthogonal to the plane through the points P (1, 1, 1), Q(2, 0, 3), and R(1, 1, 2) and the...

With the parametric equation x=cos(t)+tsin(t), y=sin(t)-tcos(t) , 0 ≤ t ≤ 2π) Find the length of...

With the parametric equation x=cos(t)+tsin(t), y=sin(t)-tcos(t) , 0 ≤ t ≤ 2π) Find the length of the given curve. (10 point)     2) In the circle of r = 6, the area above the r = 3 cos (θ) line Write the integral or integrals expressing the area of ​​this region by drawing. (10 point)

Use the stereographic projection substitutions cosθ=x=1−t^2/1+t^2, sinθ=y=2t/1+t^2 , dθ=2dt/1+t2 , t=tan(θ/2) , to compute ∫14sinθ−3cosθdθ

Use the stereographic projection substitutions cosθ=x=1−t^2/1+t^2, sinθ=y=2t/1+t^2 , dθ=2dt/1+t2 , t=tan(θ/2) , to compute ∫14sinθ−3cosθdθ

3) a) Find a polar equation for the circle x^2 + (y -2)^2 = 4. b)Find...

3) a) Find a polar equation for the circle x^2 + (y -2)^2 = 4. b)Find the arc length of the polar curve r = 3^θ from θ=0 to θ=2.

2. Rotate the semicircle of radius 2 given by y = √(4 − x^2) about the...

2. Rotate the semicircle of radius 2 given by y = √(4 − x^2) about the x-axis to generate a sphere of radius 2, and use this to calculate the surface area of the sphere. 3. Consider the curve given by parametric equations x = 2 sin(t), y = 2 cos(t). a. Find dy/dx b. Find the arclength of the curve for 0 ≤ θ ≤ 2π. 4. a. Sketch one loop of the curve r = sin(2θ) and find...

give the equation of this parametric curve in Cartesian form. x= t^2 -t , y =...

give the equation of this parametric curve in Cartesian form. x= t^2 -t , y = 5-3t , -3 <_ t <_ 4

Consider the parametric curve x = t2, y = t3 + 3t, −∞ < t <...

Consider the parametric curve x = t2, y = t3 + 3t, −∞ < t < ∞. (a) Find all of the points where the tangent line is vertical. (b) Find d2y/dx2 at the point (1, 4). (c) Set up an integral for the area under the curve from t = −2 to t = −1. (d) Set up an integral for the length of the curve from t=−1 to t=1.

Find the length of the curve defined by the parametric equations x=(3/4)t y=3ln((t/4)2−1) from t=5 to...

Find the length of the curve defined by the parametric equations x=(3/4)t y=3ln((t/4)2−1) from t=5 to t=7.