Please answer 1a to 1d. Thanks.
There is current flowing in the solenoid in part 1a.
Please answer 1a to 1d. Thanks. There is current flowing in the solenoid in part 1a.
TA) Q4: Time (30 minutes) A. The current flowing in a solenoid, of 400 turns, 20 cm length & 4 cm diameter, changes with time according to the graph show to right. Derive an expression for the strength of the induced electric field inside the solenoid 0 00 01 02 03 04 Sketch the corresponding graph showing how the induced electric field vary with time. B. The Figure to right shows an infinite straight wire carries a current I is...
A rectangular loop of wire with sides H 22 cm and W- 73 cm carries current 12 0.397 A. An infinite straight wire, located a distance L 21 cm from segment ad of the loop as shown, carries current l0.757 A in the positive y-direction 1) What is Fad,x, the x-component of the force exerted by the infinite wire on segment ad of the loop? 6.3E-8 N submit 2) What is Fbc,x, the x-component of the force exerted by the...
A rectangular loop of wire with sides H-24 ㎝ and W-59 cm carries current 12-0.167 A. An infinite straight wire, located a distance L-33 cm from segment ad of the loop as shown, carries current 11-0769 A in the positive y-direction. I2 a WI 8) What is Fad.x the x-component of the force exerted by the infinite wire on segment ad of the loop? 9) What is Focx, the x-component of the force exerted by the infinite wire on segment...
Please answer only c... 6. A long, thin, straight wire carries a current of Io 5 A along the z-axis. An electron is located at a point r (10, 0, 0) cm away from the wire and is moving with a speed of vo = 800 km/s. Find the vector force FS of the magnetic field on the electron (magnitude and direction) when the electron is movingprall to the wire (in the direction), b) radially away from the wire (in...
A rectangular loop of wire with sides H = 29 cm and W = 55 cm carries current l2 = 0.288 A. An infinite straight wire, located a distance L = 20 cm from segment ad of the loop as shown, carries current ly = 0.691 A in the positive y-direction. 1) What is Fad,x, the x-component of the force exerted by the infinite wire on segment ad of the loop? N Submit 2) What is Fbcx, the x-component of...
3. (15 points) A 400 turn solenoid 5.0 cm long, has a circular cross section of 0.75 cm2. A 20 turn coil is wound tightly around the center of the solenoid. If the current in the solenoid is changing according to I 6.0(1 + e-) A, what will be induced current in the short coil at t 0.50 s if the resistance of the short coil is 0.0015 2? (15 points) A 2.0 m long wire stretches along z axes...
#4) A solenoid that is 75 cm long current of 9.5 A. How many turns of 4m x 10-7 T·m/A. produces a magnetic field 1.5 T within the solenoid when it carries a wire are contained in this solenoid? The permittivity of free space is #5) A current loop is pl the loop tend to rotate in each case when viewed from above the loop along the indicated axis( it rotate clockwise, counterclockwise, or doesn't rotate about the dashed line...
Please answer all three questions. A 22.0 cm long solenoid carries a current of 150 mA, which sets up a magnetic field of strength 850 uT at its center. How many total turns does this solenoid have? Two straight wires, of lengths 2.5 m and 5.0 m, are placed a distance of 15.0 cm apart, with their lengths parallel. If they both carry currents of 10.0 A in opposite directions, what is the magnitude of the force between them, and...
An infinite straight wire carries current I1 = 3 A in the positive y-direction as shown. At time t = 0, a conducting wire, aligned with the y-direction is located a distance d = 50 cm from the y-axis and moves with velocity v = 12 cm/s in the negaitve x-direction as shown. The wire has length W = 24 cm. ) What is ε(0), the emf induced in the moving wire at t = 0? Define the emf to...
please just do part b. thanks. 1. Point Charge and Solenoid (a) A point charge q is located at a position (r, y, z) = (d,0,0). An infinite solenoid with n turns/length, radius R, (d > R), and carrying steady current I is positioned along the z-axis. Find the linear momentum and angular momentum (about the origin) in the fields. (b) Now consider the same situation as in part (a), but take the current to have a time-dependence I =...