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5. A conducting rod slides to the right on a conducting track in a constant magnetic...
A conducting rod slides over two horizontal metal bars with a constant speed v to the...
A conducting rod slides over two horizontal metal bars with a constant speed v to the left. The entire set up is in a region of uniform magnetic field that is perpendicular to the plane of the rod and bars. If the induced current through the resistor is as indicated, what is the direction of the magnetic field? R. II 11 II II II 1 out of the page into the page
A) A conducting rod moves through a magnetic field at a constant speed. Why does the...
A) A conducting rod moves through a magnetic field at a constant speed. Why does the induced potential not continue to increase indefinitely? B) How can an electric field be produced without any charged objects? C) A transformer is formed when two coils are placed close enough that the magnetic field of one causes magnetic flux through the second? A changing current in one coil thus induces a current in the second. Why do you suppose transformers are not used...
In a region with a constant magnetic field as shown, there are two conducting frictionless horizontal...
In a region with a constant magnetic field as shown, there are
two conducting frictionless horizontal rails, a resistor and some
conducting wire along the left side and a conducting bar on the
right side that is free to slide left or right. The bar is
initially at rest but at time zero a force is applied to the bar
pulling it to the right so that the distance s increases with
time.
a. Magnetic flux through the loop increases...
Problem 8 A conducting rod with mass m slides down two conducting rod, as shown in...
Problem 8 A conducting rod with mass m slides down two conducting rod, as shown in figure (22.53). (i) Determine the direction of the induced current. (ii) Determine the speed of the rod after it has fallen for a long period of time. 322CHAPTER 22. ELECTROMAGNETIC INDUCTION AND FARADAY'S LAW Figure 22.53: Problem 8
a. Consider a circular conducting loop that is moved at a constant speed from right to...
a. Consider a circular conducting loop that is moved at a constant speed from right to left through a rectangular region with uniform magnetic field B, as shown in the figure. As the loop moves from position 3 to position 4, a clockwise current is induced in the loop. b. a counterclockwise current is x x induced in the loop. an into the page current is 5 1 induced in the loop. d. an out of the page current is...
5) A copper rod (length L, mass m) slides with speed v over a U-shaped wire...
5) A copper rod (length L, mass m) slides with speed v over a U-shaped wire inside a constant magnetic field (B). The loop has resistance R. a) Find the magnitude and direction of the induced current in terms of the given quantities and constants. (HINT 1: Area = x L). b) Find the force vector of the copper rod.
Consider a circular conducting loop that is moved at a constant speed from right to left...
Consider a circular conducting loop that is moved at a constant speed from right to left through a rectangular region with uniform magnetic field B, as shown in the figure. As the loop moves from position 1 to position 2, a. a clockwise current is induced in the loop. b. a counterclockwise current is induced in the loop. * * * * * c. an into the page current is 5 3 1 induced in the loop. d. an out...
A conducting rod is being dragged along conducting rails, as shown in (Figure 1)
Part A A conducting rod is being dragged along conducting rails, as shown in (Figure 1). The magnetic field is directed out of the screen. In what direction does the induced current flow through the light bulb? There is no induced current. The induced current flows through the bulb from the left to the right. The induced current flows through the bulb from the right to the left. Part B A circular loop of conducting wire is moving through a uniform magnetic field, as...
The picture below is inside of a uniform and constant magnetic field of 2 nt. The...
The picture below is inside of a uniform and constant magnetic field of 2 nt. The magnetic field is directed into the page. A conducting rod slides (length = 10 cm) moves on two parallel frictionless conducting rails. What is the energy absorbed in one hour by the 12-ohm resistor if the bar moves to the right at a constant velocity of 1.75 m/s? Which way does the current travel through the bar? 1202 L N 1) energy = 2)...
a) Find the speed of the conducting rod. b)Find magnitude of the induced current in the...
a) Find the speed of the conducting rod.
b)Find magnitude of the induced current in the conducting
rod.
c)Choose the direction of the induced current in the conducting
rod
d)Determine the current flowing through R1R1
A conducting rod is positioned on a pair of conducting rails. The whole system (rod and rails) is placed inside a uniform B= 2.8T magnetic field directed outward from the plane of the rail. With an external force on the rod, it moves to the...
A conducting rod slides over two horizontal metal bars with a constant speed v to the left. The entire set up is in a region of uniform magnetic field that is perpendicular to the plane of the rod and bars. If the induced current through the resistor is as indicated, what is the direction of the magnetic field? R. II 11 II II II 1 out of the page into the page
In a region with a constant magnetic field as shown, there are
two conducting frictionless horizontal rails, a resistor and some
conducting wire along the left side and a conducting bar on the
right side that is free to slide left or right. The bar is
initially at rest but at time zero a force is applied to the bar
pulling it to the right so that the distance s increases with
time.
a. Magnetic flux through the loop increases...
Problem 8 A conducting rod with mass m slides down two conducting rod, as shown in figure (22.53). (i) Determine the direction of the induced current. (ii) Determine the speed of the rod after it has fallen for a long period of time. 322CHAPTER 22. ELECTROMAGNETIC INDUCTION AND FARADAY'S LAW Figure 22.53: Problem 8
a. Consider a circular conducting loop that is moved at a constant speed from right to left through a rectangular region with uniform magnetic field B, as shown in the figure. As the loop moves from position 3 to position 4, a clockwise current is induced in the loop. b. a counterclockwise current is x x induced in the loop. an into the page current is 5 1 induced in the loop. d. an out of the page current is...
5) A copper rod (length L, mass m) slides with speed v over a U-shaped wire inside a constant magnetic field (B). The loop has resistance R. a) Find the magnitude and direction of the induced current in terms of the given quantities and constants. (HINT 1: Area = x L). b) Find the force vector of the copper rod.
Consider a circular conducting loop that is moved at a constant speed from right to left through a rectangular region with uniform magnetic field B, as shown in the figure. As the loop moves from position 1 to position 2, a. a clockwise current is induced in the loop. b. a counterclockwise current is induced in the loop. * * * * * c. an into the page current is 5 3 1 induced in the loop. d. an out...
Part A A conducting rod is being dragged along conducting rails, as shown in (Figure 1). The magnetic field is directed out of the screen. In what direction does the induced current flow through the light bulb? There is no induced current. The induced current flows through the bulb from the left to the right. The induced current flows through the bulb from the right to the left. Part B A circular loop of conducting wire is moving through a uniform magnetic field, as...
The picture below is inside of a uniform and constant magnetic field of 2 nt. The magnetic field is directed into the page. A conducting rod slides (length = 10 cm) moves on two parallel frictionless conducting rails. What is the energy absorbed in one hour by the 12-ohm resistor if the bar moves to the right at a constant velocity of 1.75 m/s? Which way does the current travel through the bar? 1202 L N 1) energy = 2)...
a) Find the speed of the conducting rod.
b)Find magnitude of the induced current in the conducting
rod.
c)Choose the direction of the induced current in the conducting
rod
d)Determine the current flowing through R1R1
A conducting rod is positioned on a pair of conducting rails. The whole system (rod and rails) is placed inside a uniform B= 2.8T magnetic field directed outward from the plane of the rail. With an external force on the rod, it moves to the...
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