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Problem-3 (20 points): The conductor, carrying current I to the right, has three segments: two straight...
An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point Pis located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart Law) for the magnitude of the magnetic field a distance a away from a thin, straight conductor is: B = f (sin 8, - sin 02) For this problem,...
Within a uniform magnetic field B, a straight wire is carrying current in the direction shown in this figure. The direction of this uniform magnetic field is denoted by the blue dots. (Think about what these dots means. This was taught in my lectures.) B. What is the direction of the magnetic force acting on this current-carrying wire? The magnetic force points: A to the right: B. out of the page; C. Into the page: D. to the left; O...
07. A rigid wire, carrying a current I, consists of semicircle of radius R and two straight portions as shown in the following figure. The wire lies in a plane perpendicular to a uniform magnetic field B. Note choice of x and y axis. The straight portions each have length 1 within the field. Determine the net force on the wire due to the magnetic field. (8 Marks)
In what direction is the magnetic force on a current-carrying wire if the current flows to the left (-x) and the uniform magnetic field points out of the page? a. right b. left c. up d. down e. into the page f. out of the page
A uniform magnetic field of magnitude 25 points to the right. A 2.0-m-long wire, carrying 20 A, is placed at an angle of to the magnetic field, as shown in the figure. 30° What is the direction of the magnetic force on the wire? The magnetic force points O A to the right; OB out of the page: Cinto the page: OD to the left; E upward; OF downward
The size of the magnetic force on a straight wire of length L carrying current I in a uniform magnetic field with strength B is F=ILBsin(?). Here ? is the angle between the direction of the current (along the wire) and the direction of the magnetic field. Hence Bsin(?) refers to the component of the magnetic field that is perpendicular to the wire, B?. Thus this equation can also be written as F=ILB?. The direction of the magnetic force on...
PLEASE SHOW ALL WORK AND STEPS A wire loop carries a current i traveling in the clockwise direction The loop is fixed in such a way that it can rotate about the axis (dashed line) shown in the figure. (a) In what direction will the magnetic field need to point for the loop to rotate counter clockwise, w hen viewed from above, about its axis? Explain the reasoning behind your answer. (A) Up (B) Down (C) Left (D) Right (E)...
Page 3 of 3 A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude Bo directed out of the page as shown in the figure below. Determine the net force on the loop due to the field in terms of 0o. Note the direction of x and y coordinates and the following double angle trigonometric identity, cos(2a) 1-sin (a) Q7. B-0 B-0
A long straight conductor has a constant current flowing to the right. A wire rectangle is situated above the wire, and also has a constant current flowing through it (as shown in the figure). It what direction is the net force on the wire rectangle? A) out of page B) up C) down D) force is zero E) left 8) A solid cylinder of radius R = 5.0 mm caries a uniform current density of 1.50 x 106 A/m2. What is the magnitude of the magnetic...
Problem 4 [5 marks] B O B O Consider a current-carrying conductor shown above under the influence of a constant magnetic field B. At steady state, the electric force Fe due to the Hall electric field Encounteracts the magnetic force Fmexactly (above right). At this point a. [1 mark]Fel - and therefore E b. [1 mark] The conductor is a copper strip with conductivity of 5.76 x 107S/m. The current in the conductor is 1 mA. The cross section of...