Homework Answers
Here,
The magnetic field is,
B= 2.35 mT= 2.35*10^-3 T
Then,
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Your answer is partially correct. Try again. A Gaussian surface in the shape of a night...
A Gaussian surface in the shape of a circular cylinder as shown in the figure with...
A Gaussian surface in the shape of a circular cylinder as shown in the figure with end caps has a radius of 18.0 cm and a length of 48.0 cm. Through one end cap there is an inward magnetic flux of 124 Wb. At the other end, there is a uniform magnetic field of 3.20 mT, normal to the surface and directed outward. What are the magnitude and direction (inward or outward) of the net magnetic flux through the curved...
A Gaussian surface in the shape of a right circular cylinder with end caps has a...
A Gaussian surface in the shape of a right circular cylinder with end caps has a radius of 17.8 cm and a length of 71.1 cm. Through one end there is an inward magnetic flux of 25.8 μWb. At the other end there is a uniform magnetic field of 1.54 mT, normal to the surface and directed outward. What are the (a) magnitude and (b) direction (inward or outward) of the net magnetic flux through the curved surface?
A Gaussian surface in the shape of a right circular cylinder with end caps has a...
A Gaussian surface in the shape of a right circular cylinder with end caps has a radius of 14.1 cm and a length of 116 cm. Through one end there is an inward magnetic flux of 23.0 μWb. At the other end there is a uniform magnetic field of 2.32 mT, normal to the surface and directed outward. What are the (a) magnitude and (b) direction (inward or outward) of the net magnetic flux through the curved surface?
A Gaussian surface in the shape of a right circular cylinder with end caps has a...
A Gaussian surface in the shape of a right circular cylinder with end caps has a radius of 17.1 cm and a length of 77.9 cm. Through one end there is an inward magnetic flux of 25.4 μWb. At the other end there is a uniform magnetic field of 2.40 mT, normal to the surface and directed outward. What are the (a) magnitude and (b) direction (inward or outward) of the net magnetic flux through the curved surface?
In mWb Chapter 32, Problem 002 Your answer is partially correct. Try again. The figure shows...
In mWb
Chapter 32, Problem 002 Your answer is partially correct. Try again. The figure shows a closed surface. Along the flat top face, which has a radius of 4.1 cm, a perpendicular field 8 of magnitude 0.21 T is directed outward. Along the flat bottom face, a magnetic flux of 0.60 mWb is directed outward. What are the (a) magnitude and (b) direction (inward or outward) of the magnetic flux through the curved part of the surface? (a) Number...
Chapter 30, Problem 046 Your answer is partially correct. Try again. The current i through a...
Chapter 30, Problem 046 Your answer is partially correct. Try again. The current i through a 6.5 H inductor varies with time t as shown by the graph of the figure. The inductor has a resistance of 14 2. Find the magnitude of the induced emf during the time intervals (a) t = 0 to 2 ms; (b) 2 ms to 5 ms, and (c) 5 ms to 6 ms. (Ignore the behavior at the ends of the intervals.) 6...
A Gaussian surface in the shape of a circular cylinder as shown in the figure with end caps has a radius of 18.0 cm and a length of 48.0 cm. Through one end cap there is an inward magnetic flux of 124 Wb. At the other end, there is a uniform magnetic field of 3.20 mT, normal to the surface and directed outward. What are the magnitude and direction (inward or outward) of the net magnetic flux through the curved...
In mWb
Chapter 32, Problem 002 Your answer is partially correct. Try again. The figure shows a closed surface. Along the flat top face, which has a radius of 4.1 cm, a perpendicular field 8 of magnitude 0.21 T is directed outward. Along the flat bottom face, a magnetic flux of 0.60 mWb is directed outward. What are the (a) magnitude and (b) direction (inward or outward) of the magnetic flux through the curved part of the surface? (a) Number...
Chapter 30, Problem 046 Your answer is partially correct. Try again. The current i through a 6.5 H inductor varies with time t as shown by the graph of the figure. The inductor has a resistance of 14 2. Find the magnitude of the induced emf during the time intervals (a) t = 0 to 2 ms; (b) 2 ms to 5 ms, and (c) 5 ms to 6 ms. (Ignore the behavior at the ends of the intervals.) 6...
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