Consider an equilateral triangle, with side length 0.693 m. At two of the vertices of this triangle, there are long straight wires carrying a current of 8.11 A out of the page. Find the magnitude of the magnetic field, in T, at the third vertex.
Consider an equilateral triangle, with side length 0.693 m. At two of the vertices of this...
3) Three long wires (2 m long) are arranged in an equilateral triangle with a side length of 10 cm. The view is edge on (two wires coming out of the paper, one going in). Find: a) the net magnetic field vector at the center of the triangle, and b) the net force vector at point P (the midpoint of a side). 10 A
Consider an equilateral triangle with sides of length 5cm where each of the three vertices carry a charge. The top vertex carries a charge of +9.0µC, while the bottom vertices each carry a charge of?5.0µC. (a) (7 points) What is the magnitude and direction of the electric field at the center of the triangle? (b) (3 points) If the center of the triangle contained a proton, what would the force be of the charged vertices on the proton?
Two identical positive point charges, +Q, are placed at two of the vertices of an equilateral triangle of side length a. Derive the expression for the magnitude of the electric field at the third vertex of the triangle. Your answer can only contain the symbols Q, a, and ke (the Coulomb constant) and a numerical factor.
An equilateral triangle shaped wire loop with a side length of a = 40.6 cm carries an electric current of I = 19.7 A as shown in the figure.Determine the size of the magnetic field at point P, the center of the triangle.Determine the size of the magnetic field at point Q, one of the vertices of the triangle.
Three identica vertices ofan equilateral triangle. If the length of each side of the triangle shrinks to one-faurth electrostatic potential energy of this system change? (The electrostatic potental en I positive paint charges are located at the of its original length, by what factor does t he ergy approaches zero if the length of each side of the triangle approaches infinity.) eBook 1 points Tipler6 23.P.016 My Notes Ask Yo When you touch a friend after walking across a rug...
9. As shown in the figure, two charges are at the vertices of an equilateral triangle. What is the magnitude and direction of the electric field at the upper vertex of the triangle. 1 cm ' 1 cm 2nc 6.0 600 2ncº-len - 2 nc
Imagine that you have a metal wire bent into the shape of an equilateral triangle with side lengths of l. This triangle is carrying current, 1, in a direction clockwise around the triangle. Find the magnetic field (magnitude and direction) that the current produces at the center of the triangle. Hint: Use the Biot-Savart law to find the magnetic field for a finite straight wire. How does this help? -
Imagine that you have a metal wire bent into the shape of an equilateral triangle with side lengths of l. This triangle is carrying current, 1, in a direction clockwise around the triangle. Find the magnetic field (magnitude and direction) that the current produces at the center of the triangle. Hint: Use the Biot-Savart law to find the magnetic field for a finite straight wire. How does this help? -
A current carrying wire is in the shape of an equilateral triangle of edge length 4.0 cm. The triangle lies in the z = 0 plane. The wire carries a current of 1.6 A. (a) What is the magnitude of the torque on the wire if it is in a region with a uniform magnetic field of magnitude 0.34 T that points in the +z direction? ...................N·m (b) What is the magnitude of the torque on the wire if it...
5. Consider the following diagram. lo lo lo Io Front view 3-d view Four long wires are arranged in a square geometry. The two wires on the left hand side of the box are carrying a current lo out of the page (the bottom left wire) and into the page (the top left wire). The side of each box has a length of A. What is the magnetic field (magnitude and direction) along the center of the box? a. b....