Ampere's Law was used to show that the magnitude of the magnetic field a distance R from a long, thin wire carrying current I is given by: B = 27R ILet Iright A right hand rule can be used to determine the direction of this magnetic field. d A Two parallel wires, separated by a distance of 20 cm, are carrying currents. The lefthand current, ILeft, Wire carries a current ILet = 15 A in the direction shown and the other carries a current Igight = 25A current as shown. Point C is a distance of 10 cm to the right of the Igight current and Point A is halfway between the two wires. (Show your work below and on the following page. Be sure to label to which section the work belongs). Color the left hand wire red and color the right hand wire green. Then, on the diagram, using correspondingly colored O and • to represent “into" and “out of" the page, respectively, show the magnetic field directions for each wire in all the regions left, right, and in-between the wires. 10. What is the magnitude of the B-field at Point C due to Irisht? Ans: C_ A. 1.66x10°T B. 2.00x10-°T |C. 5.00x10³T D. 4.00x10-°T 11. What is the magnitude of the B-Field at Point C due to ILeh? B. 2.00x10°T Ans: A A. 1.00x10°T C. 3.00x10*T D. 4.00x10°T 12. What is the total magnetic field at Point C (both magnitude and direction must be correct for credit)?

Please show detailed solution for given question and its parts 10, 11, 12 and 13? Question is given in a image attached 

Transcribed Image Text:

Ampere's Law was used to show that the magnitude of the magnetic field a distance R from a long, thin wire carrying current I is given by: В 27R ILeft Iright A right hand rule can be used to determine the direction of this magnetic field. d A C Two parallel wires, separated by a distance of 20 cm, are carrying currents. The lefthand current, Iet, Wire carries a current ILet = 15 A in the direction shown and the other carries a current Iright = 25A current as shown. Point C is a distance of 10 cm to the right of the Iright current and Point A is halfway between the two wires. (Show your work below and on the following page. Be sure to label to which section the work belongs). Color the left hand wire red and color the right hand wire green. Then, on the diagram, using correspondingly colored ® and • to represent “into" and “out of" the page, respectively, show the magnetic field directions for each wire in all the regions left, right, and in-between the wires. 10. What is the magnitude of the B-field at Point C due to Iright? Ans: C А. 1.66х10-5T D. 4.00x10$T B. 2.00x10ST | C. 5.00x10-$T 11. What is the magnitude of the B-Field at Point C due to ILeh? B. 2.00x10³T Ans: A |A. 1.00x10-$T C. 3.00x10-³T D. 4.00x10-°T 12. What is the total magnetic field at Point C (both magnitude and direction must be correct for credit)? Ans: C a. 1.34x10$ T b. 7.00x10$ T c. 6.00x105 T d. 0 T 13. What is the DIRECTION of the total magnetic field at Point C? Ans: A a. Into page b. Left c. Right d. Out of page