Homework Answers
Q1). net flux through the surface will be zero. as the flux ingoing the surface will leave the surface. and from gauss law also flux = charge eclosed devided by epsilon which is zero.
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Consider the flux through the Gaussian cylinder shown in Figure 5. with the top and bottom...
Suppose you choose a cylinder as your Gaussian surface in a constant electric that points in...
Suppose you choose a cylinder as your Gaussian surface in a constant electric that points in the ty direction (as shown).: a) What would be the electric flux through the top surface of the cylinder? Write your answer in terms of the the given variables (E, r, top (b) What would be the electric flux through the bottom surface of the cylinder? Write your answer in terms of the the given variables (E, bottom- (c) What would be the electric...
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...
Calculate the electric flux passing out through the top surface in units of N middot m^2/C....
Calculate the electric flux passing out through the top surface in units of N middot m^2/C. Calculate the electric flux passing out through the bottom surface in units of N middot m^2/C. Calculate the electric flux passing out through the side surface in units of N middot m^2/C. Sum the electric flux passing out through all three surfaces of the cylinder to determine the total flux from the cylinder in units of N middot m^2/C. Use Gauss's Law to determine...
9) Flux of magnetic field through top and bottom of the cylinder is equal to 15...
9) Flux of magnetic field through top and bottom of the cylinder is equal to 15 Wb and 20 Wb. What is the flux through the side?
Consider the triangular gaussian block shown. The cross section of the block is an equilateral triangle...
Consider the triangular
gaussian block shown. The cross section of the block is an
equilateral triangle with sides of length b. The length of the
block is L. The block sits a distance a above a infinite sheet of
charge with uniform positive charge density σ. (Only a small
section of the sheet is shown in the sketch.) The bottom of the
block and the sheet are parallel. Find the electric flux through
each side of the block (bottom, both...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas Atop and Abot of the top and bottom faces and the magnitudes Btop and Bbot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first. Surface Atop (m2) Btop (T)...
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a...
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a uniform electric field E ori ented parallel to the top and bottom faces of the cube. The field makes an angle 0 with side 0, and the area of each face is A. In symbolic form, find the electric flux through (a) face 0, (b) face 2, (c) face 3, (d) face 4 and (e) the top and bottom faces of the cube. (f)...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas top and Act of the top and bottom faces and the magnitudes B and Boot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first Surface Atop (m3 Btop (1)...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas top and bot of the top and bottom faces and the magnitudes Brop and Boot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first Surface Atop (m? Biop (1)...
1: True or false- There is a cubical Gaussian surface with sides of 10.0 cm in...
1: True or false- There is a cubical Gaussian surface with sides of 10.0 cm in length. This Gaussian cube exists in a uniform electric field produced by a charged plane some distance away. The electric flux, F, through this surface has a value of zero. 2: Choose ALL of the geometries in which Gauss' law can be applied. In other words, choose all the geometries that you can build to use Gauss' law. •Sphere •Cylinder •Parallelogram •Pyramid •Octogon •Cube...
Suppose you choose a cylinder as your Gaussian surface in a constant electric that points in the ty direction (as shown).: a) What would be the electric flux through the top surface of the cylinder? Write your answer in terms of the the given variables (E, r, top (b) What would be the electric flux through the bottom surface of the cylinder? Write your answer in terms of the the given variables (E, bottom- (c) What would be the electric...
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...
Calculate the electric flux passing out through the top surface in units of N middot m^2/C. Calculate the electric flux passing out through the bottom surface in units of N middot m^2/C. Calculate the electric flux passing out through the side surface in units of N middot m^2/C. Sum the electric flux passing out through all three surfaces of the cylinder to determine the total flux from the cylinder in units of N middot m^2/C. Use Gauss's Law to determine...
Consider the triangular
gaussian block shown. The cross section of the block is an
equilateral triangle with sides of length b. The length of the
block is L. The block sits a distance a above a infinite sheet of
charge with uniform positive charge density σ. (Only a small
section of the sheet is shown in the sketch.) The bottom of the
block and the sheet are parallel. Find the electric flux through
each side of the block (bottom, both...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas Atop and Abot of the top and bottom faces and the magnitudes Btop and Bbot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first. Surface Atop (m2) Btop (T)...
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a uniform electric field E ori ented parallel to the top and bottom faces of the cube. The field makes an angle 0 with side 0, and the area of each face is A. In symbolic form, find the electric flux through (a) face 0, (b) face 2, (c) face 3, (d) face 4 and (e) the top and bottom faces of the cube. (f)...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas top and Act of the top and bottom faces and the magnitudes B and Boot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first Surface Atop (m3 Btop (1)...
Four closed surfaces are shown, each with circular top and bottom faces and curved sides. The areas top and bot of the top and bottom faces and the magnitudes Brop and Boot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, greatest first Surface Atop (m? Biop (1)...
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