For Problems 2 to 4: Figure shows a resistive loop with resistance of 2 Ohms. Magnetic...
Problem [2] <10 points> Calculate the total flux o passing through the surface of this loop at t=ls. Problem [3] <10 points> Calculate the current on this loop at t =ls. Problem [4] <5 points> What is the direction of the current at t=1s ? Clockwise or counter-clockwise? I For Problems 2 to 4: Figure shows a resistive loop with resistance of 2 Ohms. Magnetic flux density in this region is B = (2zî + 3xý)e-21. Calculate the current on...
Magnetic flux density is given as B =* = 6+ Problem [1] <15 points> on a surface given by r = 510,= = 48. Calculate the total flux o passing through this surface. For Problems 2 to 4: Figure shows a resistive loop with resistance of 2 Ohms. Magnetic flux density in this region is B = (2zł + 3xý)e ^. Calculate the current on this loop at t-0.1 seconds. 2 2 2 10 Problem [2] <10 points> Calculate the...
please help! 6 2 2 10 y х This figure is showing a resistive loop with a resistance of 2 ohms. The magnetic flux density of this region is: B = (2zł + 3xỹ)e-2t. a) What is the current on the loop at t = 0.1 seconds? b) What is the total flux o passing through the surface of the loop at t = 1 second? c) What is the current on the loop at t = 1 second? d)...
A 20cm x20cm square loop has a resistance of 0.10 ohms. A magnetic field perpendicular to the loop is B= 4t -2t^2, where B is in tesla and t is in seconds. What is the current in the loop at t =0.0s , t=1.0s and t=2.0s?
The following figure shows you a circular loop with radius 10 cm. A magnetic field is DECREASING from 1.5 T to 0.5 T in 4 mili - seconds. The angle 0 = 60 degrees.(12 points) • Compute the induced EMF in the loop. • If the resistance of the loop is of 5 ohms, what is the value of the induced current. • What is the direction of the induced current?
The figure shows a current loop of dimensions 0.1 m times 0.2 m and resistance 50 Ohm being withdrawn at a velocity of 25 m/s, in the direction indicted by the arrow, from a uniform magnetic field B = 0.5 T into the page. The field is negligible outside the region covered by the x's. Refer to the above. The emf induced in the current loop is V. 0 0.25 1.25 62.5 25 Refer to the above. The current induced...
3. The following figure shows you a circular loop with radius 10 cm. A magnetic field is DECREASING from 1.5 T to 0.5 T in 4 mili - seconds. The angle 8 = 60 degrees. Compute the induced EMF in the loop. • If the resistance of the loop is of 5 ohms, what is the value of the induced current. • What is the direction of the induced current?
PROBLEM 2 - 10 points A square loop travels at a constant velocity of 10 cm/s to the right through a region of magnetic field. The magnetic field is confined to the outlined rectangular region outlined. The magnetic field is directed into the page in the left half of this region, and out of the page in the right half. The small squares on the diagram measure 10 cm x 10 cm, and the loop is shown at time t=0....
the figure shows a conducting loop in a magnetic field. the radius of the loop is 20 cm, and it has a resistance of 0.02 ohms. Find the magnitude and direction of the induced current if the magnetic field is increasing at a rate of 4 T/s.
5.6 cm В. 9.4 cm [833. The magnetic field through the rectangular loop shown in the figure changes according to the relation B(t)=(3200 - 15.1t) T with t in seconds. The resistance of the loop is 15.2 m2 Based on the above information circle the statement(s) that is (are) TRUE. Statements: (a) Att = 2.8 s the magnetic flux is decreasing. (b) Att 2.8s the magnetic flux is increasing. (c) Att=2.8s the induced current ind in the rectangular loop is...