Demonstrate that the curve r=2cos(θ) is a circle centred at (1,0) or radius 1. You will...

Demonstrate that the curve r=2cos(θ) is a circle centered at (1,0) or radius 1. You will...

Demonstrate that the curve r=2cos(θ) is a circle centered at (1,0) or radius 1. You will NOT receive any partial credit for a correct sketch.

Demonstrate that the curve r=4sin(θ) is a circle centred at (0,2)of radius 2.

Demonstrate that the curve r=4sin(θ) is a circle centred at (0,2)of radius 2.

The curvature of a circle centred at the origin with radius 1/3 is

The curvature of a circle centred at the origin with radius 1/3 is

Find the exact area of the region inside the circle r=2cos(theta) but outside the circle r=1

Find the exact area of the region inside the circle r=2cos(theta) but outside the circle r=1

Suppose you have a metal washer of the form {(r,θ) : 1 ≤ r ≤ 2}....

Suppose you have a metal washer of the form {(r,θ) : 1 ≤ r ≤ 2}. The inside circle is heated to a fixed temperature distribution f(θ), and the outside circle is heated to a fixed temperature distribution g(θ). (a) Find the general formula for the steady-state temperature function u(r,θ) on the washer. (b) Find u when f(θ) = cos(θ) and g(θ) = sin(θ). (c) Find u when f(θ)=1 and g(θ)=2.

Find the slope of the curve r = 1 − sin θ, at θ = π/4...

Find the slope of the curve r = 1 − sin θ, at θ = π/4 in the xy plane at the point θ = π.

The curve C1 is the circle in R 2 of radius 2 centered at the origin,...

The curve C1 is the circle in R 2 of radius 2 centered at the origin, directed counterclockwise; the curve C2 is the hexagon in R 2 with vertices (4, −4), (4, 4), (0, 6), (−4, 4), (−4, −4), (0, −6), directed counterclockwise; and F(x, y) = (y/(x^2 + y^2))i − (x/(x^2+y^2))j. (a) Evaluate R C1 F · dr. (b) Evaluate R C2 F · dr.

A particle moves in a circle of radius r=1 m, with a constant speed of v=0.5m/s....

A particle moves in a circle of radius r=1 m, with a constant speed of v=0.5m/s. 1. What is the period? 2. What is the frequency? 3. What is the angular frequency 4. How does θ change in time 5. Write equation for the X component of the particle.

Describe the shape of the parametrically defined curve (eg, upper half of circle with radius =...

Describe the shape of the parametrically defined curve (eg, upper half of circle with radius = 3, centered at (1, -2) ) and sketch. x(t) = 5cos(t) + 5; y(t) = 5sin(t) – 2, -pi <= t <= pi.

Write equivalent Cartesian equation for the conic r = 1 / (3+cos θ) . Identify and...

Write equivalent Cartesian equation for the conic r = 1 / (3+cos θ) . Identify and sketch the curve.