I tried to explain each step clearly but if you need further any clarifications you can ask me.if you will find this solution helpful let me know by giving thums up.
Problem # 3 (5 Points): A conductor is placed along x-axis and moving in the space...
2. An infinite conductor carrying a current of 4A (de) is placed on the z-axis, and a copper conductor of length 1 m is placed on the y-axis as shown. (a) Suppose the conductor is moving in the positive z-direction with a velocity u=1 m/sec as shown in Figure 3. Find the voltage induced in the conductor. Show the polarity of the induced voltage. (b) Suppose the conductor is moving along the y-axis in the positive y-direction with a velocity...
Problem 3 (16 2 3 points): Static Magnetic Field: A wire carrying current lo runs from y = to theo along the y-axis and then from the origin to x along the x-axis. Use the Biot- Savart Law to determine the magnetic flux density at the point indicated in the figure. (хо.yo)
Problem 3 (16 2 3 points): Static Magnetic Field: A wire carrying current lo runs from y = to theo along the y-axis and then from the origin...
3. If a proton is moving along the x-axis at 8/10 times the speed of light in vacuum, through a region of space where the Electric field is 2i and the Magnetic field 3i+4j, find the magnitude of the force on the proton.
choose the option along with little explaination
Question 6 (1 point) Consider a conducting loop in the xz plane (centered along the y axis) and placed in the magnetic flux density provided below B-30sin( 120t)ay mWb/m2 If the loop is circular and has radius of 5 cm, what is the voltage (EMF) induced in the loop? 0.028v 0.008 cos 120t V -28 cos 120t V -0.028 cos 120t V
Select option along with little explaination
Question 6 (1 point) Consider a conducting loop in the xz plane (centered along the y axis) and placed in the magnetic flux density provided below B-30sin( 120t)ay mWb/m2 If the loop is circular and has radius of 5 cm, what is the voltage (EMF) induced in the loop? 0.028v 0.008 cos 120t V -28 cos 120t V -0.028 cos 120t V
A conductor carrying a currentI 14.3 A is directed along the positive x axis and perpendicular to a uniform magnetic field. A magnetic force per unit length of 0.124 N/m acts on the conductor in the negative y direction. (a) Determine the magnitude of the magnetic field in the region through which the current passes. (b) Determine the direction of the magnetic field in the region through which the current passes +x direction x direction ty direction -y direction +z...
Problem 1 (2 marks) A rectangular loop of conducting wire is rotating around the z-axis as shown in Figure 1. The loop is placed inside a magnetic field with A Z flux density of B = Ba, (Wb/m2) in free space. Given the height of wwww the loop is h (m); the width of the loop is (m) and the rotation W angular velocity is o (rad/s), find the induced emf in the closed loop C Figure
Problem 1 (2...
. An electron is moving (along x-axis) through a 50 T magnetic field (along y-axis) at a perpendicular velocity of 20000 m/s. Find the magnitude and direction of the magnetic force experienced by the electron. having hard time pleases go step by step
An electron is moving (along x-axis) through a 77 T magnetic
field (along y-axis) at a perpendicular velocity of 20000 m/s. Find
the magnitude and direction of the magnetic force experienced by
the electron. (Here is a picture not sure if you need it. if not
disregard.)
I P В.
An electron is moving (along x-axis) through a 50 T magnetic field (along y-axis) at a perpendicular velocity of 20000 m/s. Find the magnitude and direction of the magnetic force experienced by the electron. which law is this using and can you break it down step by step im still not understanding