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A solid wedge is immersed in an electric field as shown below. The left face of...
A solid wedge is immersed in an electric field as shown below. The left face of...
A solid wedge is immersed in an electric field as shown below. The left face of the wedge is a 10.0 cm square. The angle of the wedge is 45.0". The electric flux through the left face is 1.25 Nm2/C. What is the flux through the slanted face of the wedge? E OA OB Ос. 0.176 N.m/c 0.00 Nmic 1.25 Nm2/C 1.76 Nm2/C 0.884 Nm2/C OD OE
QUESTION 4 You have two capacitors, one with a larger capacitance than the other. You connect...
QUESTION 4 You have two capacitors, one with a larger capacitance than the other. You connect them in series. The total capacitance will be А. The same as the larger capacitance B Greater than the larger capacitance OC. The same as the capacitance of the smaller capacitor D. Between the smaller and larger capacitances E. Less than the capacitance of the smaller capacitor QUESTION 5 A solid wedge is immersed in an electric field as shown below. The left face...
Suppose a square surface of side 0.10 m is placed in a uniform electric field of...
Suppose a square surface of side 0.10 m is placed in a uniform electric field of magnitude 50.0 N/C. If the angle between the field and the normal to the surface is 25.0°, what is the magnitude of the electric flux through the surface? O 4.5 Nm2/c O 0.45 N-m2/c o.50 N-m2/c o.21 N-m2/c
7. A uniform electric field E 30 N/C exists parallel to the axis of a square...
7. A uniform electric field E 30 N/C exists parallel to the axis of a square shaped figure with sides L = 10cm . Calculate the electric flux through the slanted side of the figure, with the slope of the slanted side being 350, How does that flux compare to the flux through the vertical side on the left?
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000....
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area o.0280 m2. What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 30.0 cm on a side is 1.25 x 10 Nm,c. what charge is enclosed by the box? Permittivity of free space is 8.85 x 1o1" C/Nm2
The square surface shown in the figure measures 3.2 mm on each side. It is immersed...
The square surface shown in the figure measures 3.2 mm on each side. It is immersed in a uniform electric field with magnitude E2500 N/C and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though the surface were one face of a box. Calculate the electric flux through the surface Normal A Number 2.097E-2 UnitsT N-m 2/C the tolerance is +/-290
The diagram shows a closed triangular prism situated in a region of uniform electric field E...
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 x 10^4 j) N/C. The dimensions of the triangular prism are a = 18.0 cm, b = 10.0 cm, and d = 32.4 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? What is the direction of the normal for the bottom face of the triangular prism? How is...
(a) The electric field in a certain region is E = (-4.0k) N/C. Determine the electric...
(a) The electric field in a certain region is E = (-4.0k) N/C. Determine the electric flux due to this field through an area represented by the vector A = (3.41 – 5.4K) m2. N- m²/c (b) Determine the flux due to the same electric field when the surface orientation has changed such that the area is now represented by the vector A = (3.4 - 5.49) m2. Nm2/C
A cube of side L-3.2 m lies in a region where the electric field is given...
A cube of side L-3.2 m lies in a region where the electric field is given by E-2 7+5.4)i -4.0k N/C. We wish to find the net electric flux through the cube by first calculating the flux through each of (a) What is the flux through the left face of the cube? N-m2/C (b) What is the flux through the right face of the cube? N m2/c (c) What is the flux through the top face of the cube? (d)...
The diagram shows a closed triangular prism situated in a region of uniform electric field E...
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 times 10^4 j) N/C. The dimensions of the triangular prism are a = 16.2 cm, b = 10.0 cm, and d = 29.2 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? N middot m^2/C (b) What is the flux through the slanted face of the triangular prism? N...
A solid wedge is immersed in an electric field as shown below. The left face of the wedge is a 10.0 cm square. The angle of the wedge is 45.0". The electric flux through the left face is 1.25 Nm2/C. What is the flux through the slanted face of the wedge? E OA OB Ос. 0.176 N.m/c 0.00 Nmic 1.25 Nm2/C 1.76 Nm2/C 0.884 Nm2/C OD OE
QUESTION 4 You have two capacitors, one with a larger capacitance than the other. You connect them in series. The total capacitance will be А. The same as the larger capacitance B Greater than the larger capacitance OC. The same as the capacitance of the smaller capacitor D. Between the smaller and larger capacitances E. Less than the capacitance of the smaller capacitor QUESTION 5 A solid wedge is immersed in an electric field as shown below. The left face...
Suppose a square surface of side 0.10 m is placed in a uniform electric field of magnitude 50.0 N/C. If the angle between the field and the normal to the surface is 25.0°, what is the magnitude of the electric flux through the surface? O 4.5 Nm2/c O 0.45 N-m2/c o.50 N-m2/c o.21 N-m2/c
7. A uniform electric field E 30 N/C exists parallel to the axis of a square shaped figure with sides L = 10cm . Calculate the electric flux through the slanted side of the figure, with the slope of the slanted side being 350, How does that flux compare to the flux through the vertical side on the left?
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area o.0280 m2. What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 30.0 cm on a side is 1.25 x 10 Nm,c. what charge is enclosed by the box? Permittivity of free space is 8.85 x 1o1" C/Nm2
The square surface shown in the figure measures 3.2 mm on each side. It is immersed in a uniform electric field with magnitude E2500 N/C and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though the surface were one face of a box. Calculate the electric flux through the surface Normal A Number 2.097E-2 UnitsT N-m 2/C the tolerance is +/-290
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 x 10^4 j) N/C. The dimensions of the triangular prism are a = 18.0 cm, b = 10.0 cm, and d = 32.4 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? What is the direction of the normal for the bottom face of the triangular prism? How is...
(a) The electric field in a certain region is E = (-4.0k) N/C. Determine the electric flux due to this field through an area represented by the vector A = (3.41 – 5.4K) m2. N- m²/c (b) Determine the flux due to the same electric field when the surface orientation has changed such that the area is now represented by the vector A = (3.4 - 5.49) m2. Nm2/C
A cube of side L-3.2 m lies in a region where the electric field is given by E-2 7+5.4)i -4.0k N/C. We wish to find the net electric flux through the cube by first calculating the flux through each of (a) What is the flux through the left face of the cube? N-m2/C (b) What is the flux through the right face of the cube? N m2/c (c) What is the flux through the top face of the cube? (d)...
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 times 10^4 j) N/C. The dimensions of the triangular prism are a = 16.2 cm, b = 10.0 cm, and d = 29.2 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? N middot m^2/C (b) What is the flux through the slanted face of the triangular prism? N...
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