Please show work, thank you! 1: Determine (and explain) the direction of the induced current in...
Final answer should be: 1: Determine (and explain) the direction of the induced current in each loop. The diagrams for a and b are left to right in the top row. Similarly, the diagrams for c and d are left to right in the bottom row. a: The field is decreasing in strength. b: The current is increasing in strength c: The left loop is pulled away from the right loop. Note that the right loop initially has a current....
Please explain why.. Thank you! 1. (6 points) Indicate the direction of the induced current in each loop by writing clockwise, counterclockwise or none. d a) The current in the wire is increasing. CCW ) The loop is moving to the right. The arrows indicate the magnetic field. none 1111 В. b) The loop is moving towards the top of the page. none e) The loop is increasing in size CW X X X X X X X x x...
please explain why 1. (6 pints Indicate the direction of the induced current in each loop by writing clockwise, counterclockwise or none. a) The current in the wire is increasing. d) The loop is moving to the right. The arrows indicate the magnetic field. CCW none B. b) The loop is moving towards the top of the page. e) The loop is increasing in size Cw none х x x x x x x X x x x x x...
Several questions about the direction of induced current. In all the parts of this question, the same initial situation holds, shown in the figure. In the heavy loop there is a clockwise current. Something about the arrangement is changing, and a current may or may not be induced in the lighter loop as a result. For each part, specify whether the induced current runs clockwise, counterclockwise, or if no current is induced at all. The current in the heavy loop...
Problem 7: For each situation shown below, indicate • the direction of the area vector you have chosen (direction of positive flux) the sign of the flux using that area vector • whether the flux is increasing or decreasing the direction of the induced magnetic field • the direction of the induced current . • the direction of the net force on the loop Loop of wire I - Increasing a) Loop near a wire with current increasing Loop of...
For direction questions the choices are: into page, out of page, clockwise, counterclockwise, or no induced field. Letters (m), (n), (q) and (r) have choices: up, down, left, right, into page, out of page, or no induced field. The change in flux is either increasing, decreasing, or constant. Thank you for your help! Considering the three situations below, fill in the tables. 1: This hexagonal loop of wire is in a uniform magnetic field; at t = 0 s, the...
In the following figure, determine the direction of the current in resistor ab: A) As switch S is closed. B) As coil B is moved away from coil A with the switch closed; C) As the resistance of R is increased while the switch remains closed A circular loop of wire with radius R, is in a region of spatially uniform magnet field as shown below. The magnetic field is directed into the plane of the figure. Calculate the direction...
Indicate the direction of the induced current in each of the situations show bellow, or "none" if there isn't any. You may wish to make note of your thought process by which you arrive at your answer in the event that your answer is incorrect such that you might still receive some partial credit. It may also help to clarify your answer if you copy each diagram or print the whole page and draw the direction of the induced current...
4. Determine the direction of the induced current in the wire loops concentric with the current carrying loop. Show the direction of the B-field created by the current carrying wire. (4 pts) a. Current in the inner loop is decreasing. b. Current in the outer loop is increasing
For example, consider the situation shown on the right in which a rectangular loop is 8 inside a region of space with a magnetic field that points into the page. The magnetic field also increases. A. Borig: What is the direction of the original magnetic field? Into the page B. PB: Is ºb decreasing, increasing or staying the same? Increases because the magnitude of the magnetic field increases C. Bind: What is the direction of the induced magnetic field? Since...