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The metal equilateral triangle in the figure below, 24 cm on each side, is halfway into...
The metal equilateral triangle in the figure,20 on each side, is halfway into a 0.1 magnetic...
The metal equilateral triangle in the figure,20 cm on each side, is halfway into a 0.1 T magnetic field.A) What is the magnetic flux through the triangle?B) If the magnetic field strength decreases, what is the direction of the induced current in the triangle?
The metal equilateral triangle in the figure, 20 cm on each side, is halfway into a...
The metal equilateral triangle in the figure, 20 cm on each side, is halfway into a 0.35 T magnetic field. (Figure 1) Part A What is the magnitude of the magnetic flux through the triangle? Express your answer with the appropriate units. μΑ ? $ = 0.000026 Wb Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining Part B If the magnetic field strength decreases, what is the direction of th Figure 1 of 1 clockwise X...
An equilateral triangle 8.0 cm on a side is in a 3 mT uniform magnetic field....
An equilateral triangle 8.0 cm on a side is in a 3 mT uniform magnetic field. The magnetic flux through the triangle is 6.0 μWb. What is the angle between the magnetic field and an axis perpendicular to the plane of the triangle?
30.6 An equilateral triangle 8.0 cm on a side is in a 3.5 mT uniform magnetic...
30.6 An equilateral triangle 8.0 cm on a side is in a 3.5 mT uniform magnetic field. The magnetic flux through the triangle is 6.0 μWb. What is the angle between the magnetic field and an axis perpendicular to the plane of the triangle?
An equilateral triangle shaped wire loop with a side length of a= 40.6 cm carries...
An equilateral triangle shaped wire loop with a side length of a = 40.6 cm carries an electric current of I = 19.7 A as shown in the figure.Determine the size of the magnetic field at point P, the center of the triangle.Determine the size of the magnetic field at point Q, one of the vertices of the triangle.
Imagine that you have a metal wire bent into the shape of an equilateral triangle with...
Imagine that you have a metal wire bent into the shape of an equilateral triangle with side lengths of l. This triangle is carrying current, 1, in a direction clockwise around the triangle. Find the magnetic field (magnitude and direction) that the current produces at the center of the triangle. Hint: Use the Biot-Savart law to find the magnetic field for a finite straight wire. How does this help? -
Imagine that you have a metal wire bent into the shape of an equilateral triangle with...
Imagine that you have a metal wire bent into the shape of an equilateral triangle with side lengths of l. This triangle is carrying current, 1, in a direction clockwise around the triangle. Find the magnetic field (magnitude and direction) that the current produces at the center of the triangle. Hint: Use the Biot-Savart law to find the magnetic field for a finite straight wire. How does this help? -
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
A square loop of wire with side length 10 cm is moving to the right with...
A square loop of wire with side length 10 cm is moving to the right with constant speed of 16 m/s. The loop has total resistance of .8 ohms. It begins in a region with no magnetic field, then enters a region of magnetic field (wider than 10 cm) with a strength of .5 T pointing out of the page. a) while entering the field what is the direction of the induced current as seen from above the plane of...
The point charges in the figure below are located at the corners of an equilateral triangle 20.0 cm on a side.
The point charges in the figure below are located at the corners of an equilateral triangle 20.0 cm on a side. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) Find the electric field at the location of qa in the figure, given that qb = +15.00μC and qc = -3.00 μC. (b) What is the force on qa given that qa = +3.00 nC?
The metal equilateral triangle in the figure, 20 cm on each side, is halfway into a 0.35 T magnetic field. (Figure 1) Part A What is the magnitude of the magnetic flux through the triangle? Express your answer with the appropriate units. μΑ ? $ = 0.000026 Wb Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining Part B If the magnetic field strength decreases, what is the direction of th Figure 1 of 1 clockwise X...
Imagine that you have a metal wire bent into the shape of an equilateral triangle with side lengths of l. This triangle is carrying current, 1, in a direction clockwise around the triangle. Find the magnetic field (magnitude and direction) that the current produces at the center of the triangle. Hint: Use the Biot-Savart law to find the magnetic field for a finite straight wire. How does this help? -
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
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