conducting cones (θ = π/10 and θ = π/6) of infinite extent are separated by an...

Find the slope of the tangent line to the curve r=3sin3θ at θ=π/6

Find the slope of the tangent line to the curve r=3sin3θ at θ=π/6

Find the length of the r = 1+ cosθ cardioid between 0 ≤ θ ≤ π.

Find the length of the r = 1+ cosθ cardioid between 0 ≤ θ ≤ π.

Let r = sin 3θ. Find the equation of the tangent line at θ = π⁄6.

Let r = sin 3θ. Find the equation of the tangent line at θ = π⁄6.

Two squares of copper are separated by 6 x 10-6 meters and have a capacitance of...

Two squares of copper are separated by 6 x 10-6 meters and have a capacitance of 8 nF. (Only air is between the squares.) A)  What is the area of each plate? The plates are connected to a 120 V power source. B) What is the charge on the plates? C) What is the potential energy stored in the capacitor? D) What is the magnitude of the electric field between the plates? The capacitor is now removed from the 120 V...

A laboratory capacitor consists of two parallel conducting plates, each with area of 2*10^-2 m^2 separates...

A laboratory capacitor consists of two parallel conducting plates, each with area of 2*10^-2 m^2 separates by a 4*10^-3 m air gap. A) compute the capacitance of the capacitor B) if the capacitor is connected across a 500 V source, find the value of the electrical field between the plates

Two large conducting parallel plates A and B are separated by 2.4 m. A uniform field...

Two large conducting parallel plates A and B are separated by 2.4 m. A uniform field of 1500 V/m, in the positive x-direction, is produced by charges on the plates. The center plane at x = 0.00 m is an equipotential surface on which V = 0. An electron is projected from x = 0.00 m, with an initial velocity of 1.0 × 107 m/s perpendicular to the plates in the positive x-direction, as shown in the figure. What is...

Problem 10:   A conducting rod spans a gap of length L = 0.186 m and acts...

Problem 10:   A conducting rod spans a gap of length L = 0.186 m and acts as the fourth side of a rectangular conducting loop, as shown in the figure. A constant magnetic field B = 0.65 T pointing into the paper is in the region. The rod is moving under an external force with an acceleration a = At2, where A = 6.5 m/s4. The resistance in the wire is R = 145 Ω. Randomized VariablesL = 0.186 m...

An infinite plane has a charge density of σ = 10 nC/m^2. A charge q =...

An infinite plane has a charge density of σ = 10 nC/m^2. A charge q = 50 10^-19C; of mass m = 5E-28 kg, is released from rest, at a distance d= 8 cm away from the plane. We need to find the speed of the charge after it has moved by a distance r = 2 cm. Ignore the effects of gravity. a) Find the electrostatic field due to the plane of charge. b) Using the relationship between the...

Consider an infinite plane of charge with a charge density of +10 µC/m2. Assume that this...

Consider an infinite plane of charge with a charge density of +10 µC/m2. Assume that this plane is on the y-and z-axes. That is, assume it is perpendicular to the x-axis and that it passes through the origin. a) What would be the electric field strength and direction at the point (5 m, 0, 0)? The strength is___________N/C The direction is Answer: -x, x, -y, y, -z, or z b) What would be the electric field strength and direction at...

Use the following table to answer the following questions X Y     5                 34     6      

Use the following table to answer the following questions X Y     5                 34     6                 37     8                 41     9                   46     10                50     13                53     15                47 17 55 i)Make a scatterplot ii) Find r to the nearest hundredth iii) Using scatterplot determine the relationship between X and Y iv) Find r 2 and interpret its meaning. v) Determine the regression equation y’ =