Question Part Points Submissions Used As shown in the figure, two frictionless conducting rails (#1 and...
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As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a 20.0
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As shown in
the figure, two frictionless conducting rails (#1 and...
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a...
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a 20.0° incline such that the inside edges are 80.0 cm apart. A copper bar with a mass of 0.237 kg slides (without friction) at a constant speed down the conducting rails. Sliding bar Conducting rails If there is a vertical magnetic field of 0.0406 T in magnitude in the region of the incline, determine the magnitude of the current I that flows through the...
w 2. The conducting bar illustrated in the figure moves on two frictionless, parallel rails in...
w 2. The conducting bar illustrated in the figure moves on two frictionless, parallel rails in the presence of a uniform magnetic field directed into the page. The bar has mass m and its length is l. The bar is given an initial velocity Vi to the right and is released at t=0. Find the speed of the bar as a function of time after it is released.
1. A rod (length = 10 cm) moves on two horizontal frictionless conducting rails, as shown...
1. A rod (length = 10 cm) moves on two horizontal frictionless conducting rails, as shown below. The magnetic field in the region is directed perpendicularly to the plane of the rails and is uniform and constant. If a constant force of 0.60 N moves the bar at a constant velocity of 2.0 m/s, show that the current through the 12-2 load resistor is 0.32 A. 1222 An ideal step-down transformer has 200 primary turns and 50 secondary turns. If...
(3 points) Two superconducting and frictionless rails a distance I apart are connected by a super...
(3 points) Two superconducting and frictionless rails a distance I apart are connected by a superconducting wire, as shown in Figure 7. A platform of mass m connects the two rails Page 2 and can slide without friction along the rails. The platform has a resistance R between the points where it makes contact with the rails. The rails are infinitely long and a uniform magnetic field is perpendicular to the plane of the rails and the platform at all...
Problem 3 In the figure below, a conducting rod rests on frictionless conducting parallel rails. There...
Problem 3
In the figure below, a conducting
rod rests on frictionless conducting parallel rails. There is a
uniform magnetic going into the page of .50T. The rod is pulled at
a constant velocity of 3m/s. The resistance of the rails and rod is
negligible; however there is a 0.5F capacitor at then end of the
rails. The distance between the rails is 20cm.
a) Calculate the magnitude and
direction of the emf in the circuit. Indicate the direction of...
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...
Question 7 The conducting rod shown in the figure has length L and is being pulled along horlizontal, frictionless, conducting rails at a constant metal strip. A uniform magnetic field, directed...
Question 7 The conducting rod shown in the figure has length L and is being pulled along horlizontal, frictionless, conducting rails at a constant metal strip. A uniform magnetic field, directed of the magnetic fieid is 8-1.0 T. (a) What is the magnitude Assume that L15 cm, the speed of the rod is v -5.9 m/s, and the magnitude of emf induced in voits in the rod? (b) What is the current in amperes in the conducting loop? Assume that...
13. A conducting bar moves along frictionless conducting rails connected to a 4.00-0 resistor as shown...
13. A conducting bar moves along frictionless conducting rails connected to a 4.00-0 resistor as shown in the figure. The length of the bar is 1.60 m and a uniform magnetic field of 2.20 T is applied perpendicular to the paper pointing outward, as shown. (8 points) (a) If the bar is moving to the right at a constant speed of 6.0 m/s, what is the direction of the current and the power dissipated by the resistor? (b) What is...
A conducting bar of length f moves to the right on two frictionless rails as shown...
A conducting bar of length f moves to the right on two frictionless rails as shown in the figure below. A uniform magnetic field directed into the page has a magnitude of 0.290 T. Assume R-9.10 Ω and 1 0.320 m. (a) At what constant speed should the bar move to produce an 8.60-mA current in the resistor? 83m/s (b) What is the direction of the induced current? clockwise counterclockwise O into the page O out of the page (c)...
A conducting rod of length script i moves on two horizontal frictionless rails, as in the...
A conducting rod of length script i moves on two horizontal frictionless rails, as in the figure below. A constant force of magnitude 3.00 N moves the bar at a uniform speed of 9.00 m/s through a magnetic field vector B that is directed into the page.
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a 20.0° incline such that the inside edges are 80.0 cm apart. A copper bar with a mass of 0.237 kg slides (without friction) at a constant speed down the conducting rails. Sliding bar Conducting rails If there is a vertical magnetic field of 0.0406 T in magnitude in the region of the incline, determine the magnitude of the current I that flows through the...
w 2. The conducting bar illustrated in the figure moves on two frictionless, parallel rails in the presence of a uniform magnetic field directed into the page. The bar has mass m and its length is l. The bar is given an initial velocity Vi to the right and is released at t=0. Find the speed of the bar as a function of time after it is released.
1. A rod (length = 10 cm) moves on two horizontal frictionless conducting rails, as shown below. The magnetic field in the region is directed perpendicularly to the plane of the rails and is uniform and constant. If a constant force of 0.60 N moves the bar at a constant velocity of 2.0 m/s, show that the current through the 12-2 load resistor is 0.32 A. 1222 An ideal step-down transformer has 200 primary turns and 50 secondary turns. If...
(3 points) Two superconducting and frictionless rails a distance I apart are connected by a superconducting wire, as shown in Figure 7. A platform of mass m connects the two rails Page 2 and can slide without friction along the rails. The platform has a resistance R between the points where it makes contact with the rails. The rails are infinitely long and a uniform magnetic field is perpendicular to the plane of the rails and the platform at all...
Problem 3
In the figure below, a conducting
rod rests on frictionless conducting parallel rails. There is a
uniform magnetic going into the page of .50T. The rod is pulled at
a constant velocity of 3m/s. The resistance of the rails and rod is
negligible; however there is a 0.5F capacitor at then end of the
rails. The distance between the rails is 20cm.
a) Calculate the magnitude and
direction of the emf in the circuit. Indicate the direction of...
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...
Question 7 The conducting rod shown in the figure has length L and is being pulled along horlizontal, frictionless, conducting rails at a constant metal strip. A uniform magnetic field, directed of the magnetic fieid is 8-1.0 T. (a) What is the magnitude Assume that L15 cm, the speed of the rod is v -5.9 m/s, and the magnitude of emf induced in voits in the rod? (b) What is the current in amperes in the conducting loop? Assume that...
13. A conducting bar moves along frictionless conducting rails connected to a 4.00-0 resistor as shown in the figure. The length of the bar is 1.60 m and a uniform magnetic field of 2.20 T is applied perpendicular to the paper pointing outward, as shown. (8 points) (a) If the bar is moving to the right at a constant speed of 6.0 m/s, what is the direction of the current and the power dissipated by the resistor? (b) What is...
A conducting bar of length f moves to the right on two frictionless rails as shown in the figure below. A uniform magnetic field directed into the page has a magnitude of 0.290 T. Assume R-9.10 Ω and 1 0.320 m. (a) At what constant speed should the bar move to produce an 8.60-mA current in the resistor? 83m/s (b) What is the direction of the induced current? clockwise counterclockwise O into the page O out of the page (c)...
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