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A metallic loop of mass mfalls under the influence of gravity out of a B field...
A circular loop lies in the plane of the screen. There is an initial magnetic field...
A circular loop lies in the plane of the screen. There is an initial magnetic field pointing toward you of strength B(initial). The field is changed in a short time so that the final magnetic field is the same strength but now pointing into the page. During this process, which is the best description of the directions for the Induced B field and the direction of the induced EMF respectively. up toward the top of the page, out of the...
5. A loop of resistance R, mass M, width w (horizontal) and very long length L...
5. A loop of resistance R, mass M, width w (horizontal) and very long length L (vertical) is falling under gravity in a B field perpendicular to its plane (into the page) which is non-zero (with magnitude B) only below some height, as shown in Fig. 2. Assuming that some part of the loop is always outside the field region: A) Which way does the induced current in the loop flow? Explain your answer. B) The loop will eventually reach...
A circular loop lies in the plane of the screen. There is an initial magnetic field...
A circular loop lies in the plane of the screen. There is an initial magnetic field pointing toward you of strength B(initial). The field is changed in a short time so that the final magnetic field is the same strength but now pointing into the page. During this process, which is the best description of the directions for the Induced B field and the direction of the induced EMF respectively. up toward the top of the page, into the page...
A square loop made of copper wire is falling (moving downward due to gravity) out of...
A square loop made of copper wire is falling (moving downward
due to gravity) out of a region where there is a constant magnetic
field of magnitude Bext = 0.235 T. The magnetic field is
perpendicular to the plane of the loop, either into or out of the
page (it doesn't matter which direction).
The loop is falling with a constant
velocity because of the current induced in the loop
and the magnetic field.
What is the velocity of the...
Magnetic field region There is a uniform magnetic field of magnitude B= 1.6T and directed out...
Magnetic field region There is a uniform magnetic field of magnitude B= 1.6T and directed out of the plane of the screen in the region shown. Outside this region the magnetic field is zero. A rectangular loop o.2 mby 0.6 m and of resistance 42 and mass 8 grams is being pulled into the magnetic field by an external force as shown. - What is the direction (CW or CCW) of the current induced in the loop? Calculate the magnitude...
QUESTION 8 The half-circle conducting loop lies in the uniform magnetic field B that is directed...
QUESTION 8 The half-circle conducting loop lies in the uniform magnetic field B that is directed out of the page. The field magnitude is given by B=4t- +2t +3. with B in Teslas and t in seconds What are the magnitude and direction of the emf induced along the loop by B at t=10 sec? Attach File Browse My Computer Browse Content Collection B rowse Dropbox
Consider at time t= 0, a uniform a magnetic field (directed out of the page) B...
Consider at time t= 0, a uniform a magnetic field (directed out of the page) B = 6.0tis turned on as shown below. The loop has radius 20.0 cm and it is connected to a resistance R = 5.0 92 shown as below. What is the magnitude of the induced emf and the current in the loop at t=2.5 sec? Is the direction of induced emf clockwise or counterclockwise in the loop? M R = 592
4. Consider a circular loop of wire with a mass m and a radius R. The...
4. Consider a circular loop of wire with a mass m and a radius R. The circular loop is vertical such that gravitational force on the loop points straight down. You may assume this is near the surface of the earth such that the force of gravity has a magnitude FGl mg. The upper half of the circular wire is immersed in a uniform magnetic field B pointing into the page. In the figure below this corresponds to the region...
1. Consider a rectangular conducting loop of length l, width w, mass m, and resistance R....
1. Consider a rectangular conducting loop of length l, width w, mass m, and resistance R. Due to gravity g, it is falling out of a uniform magnetic field that points out of the page. At the time shown in the figure, the rate at which heat is released from the loop reaches a constant value P. O © Boo O O BrŐ Figure 1: Loop falling out of a magnetic field (a) Find the magnetic field B in terms...
PROBLEM 2 - 10 points A square loop travels at a constant velocity of 10 cm/s...
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....
A circular loop lies in the plane of the screen. There is an initial magnetic field pointing toward you of strength B(initial). The field is changed in a short time so that the final magnetic field is the same strength but now pointing into the page. During this process, which is the best description of the directions for the Induced B field and the direction of the induced EMF respectively. up toward the top of the page, out of the...
5. A loop of resistance R, mass M, width w (horizontal) and very long length L (vertical) is falling under gravity in a B field perpendicular to its plane (into the page) which is non-zero (with magnitude B) only below some height, as shown in Fig. 2. Assuming that some part of the loop is always outside the field region: A) Which way does the induced current in the loop flow? Explain your answer. B) The loop will eventually reach...
A circular loop lies in the plane of the screen. There is an initial magnetic field pointing toward you of strength B(initial). The field is changed in a short time so that the final magnetic field is the same strength but now pointing into the page. During this process, which is the best description of the directions for the Induced B field and the direction of the induced EMF respectively. up toward the top of the page, into the page...
A square loop made of copper wire is falling (moving downward
due to gravity) out of a region where there is a constant magnetic
field of magnitude Bext = 0.235 T. The magnetic field is
perpendicular to the plane of the loop, either into or out of the
page (it doesn't matter which direction).
The loop is falling with a constant
velocity because of the current induced in the loop
and the magnetic field.
What is the velocity of the...
Magnetic field region There is a uniform magnetic field of magnitude B= 1.6T and directed out of the plane of the screen in the region shown. Outside this region the magnetic field is zero. A rectangular loop o.2 mby 0.6 m and of resistance 42 and mass 8 grams is being pulled into the magnetic field by an external force as shown. - What is the direction (CW or CCW) of the current induced in the loop? Calculate the magnitude...
QUESTION 8 The half-circle conducting loop lies in the uniform magnetic field B that is directed out of the page. The field magnitude is given by B=4t- +2t +3. with B in Teslas and t in seconds What are the magnitude and direction of the emf induced along the loop by B at t=10 sec? Attach File Browse My Computer Browse Content Collection B rowse Dropbox
Consider at time t= 0, a uniform a magnetic field (directed out of the page) B = 6.0tis turned on as shown below. The loop has radius 20.0 cm and it is connected to a resistance R = 5.0 92 shown as below. What is the magnitude of the induced emf and the current in the loop at t=2.5 sec? Is the direction of induced emf clockwise or counterclockwise in the loop? M R = 592
4. Consider a circular loop of wire with a mass m and a radius R. The circular loop is vertical such that gravitational force on the loop points straight down. You may assume this is near the surface of the earth such that the force of gravity has a magnitude FGl mg. The upper half of the circular wire is immersed in a uniform magnetic field B pointing into the page. In the figure below this corresponds to the region...
1. Consider a rectangular conducting loop of length l, width w, mass m, and resistance R. Due to gravity g, it is falling out of a uniform magnetic field that points out of the page. At the time shown in the figure, the rate at which heat is released from the loop reaches a constant value P. O © Boo O O BrŐ Figure 1: Loop falling out of a magnetic field (a) Find the magnetic field B in terms...
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....
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