A magnetic field of magnitude 0.39 T is directed vertically upward.
(a) Find the magnetic flux through a flat surface of area 21
cm2 if the surface is vertical.
(b) Find the magnetic flux through a flat surface of area 21
cm2 if the surface is horizontal.
(c) Find the magnetic flux through a flat surface of area 21
cm2 if the surface is at angle of 58° with the
horizontal.
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A magnetic field of magnitude 0.39 T is directed vertically upward. (a) Find the magnetic flux...
A magnetic field of magnitude 0.53 T is directed vertically upward. (a) Find the magnetic flux through a flat surface of area 19 cm2 if the surface is vertical. (b) Find the magnetic flux through a flat surface of area 19 cm2 if the surface is horizontal. (c) Find the magnetic flux through a flat surface of area 19 cm2 if the surface is at angle of 59° with the horizontal.
A magnetic field of magnitude 0.50 T is directed vertically upward. (a) Find the magnetic flux through a flat surface of area 22 cm2 if the surface is vertical. (b) Find the magnetic flux through a flat surface of area 22 cm2 if the surface is horizontal. (c) Find the magnetic flux through a flat surface of area 22 cm2 if the surface is at angle of 63° with the horizontal.
A magnetic field of magnitude 0.53 T is directed vertically upward. (a) Find the magnetic flux through a flat surface of area 19 cm^2 if the surface is vertical. (b) Find the magnetic flux through a flat surface of area 19 cm^2 if the surface is horizontal. (c) Find the magnetic flux through a flat surface of area 19 cm^2 if the surface is at angle of 58 degree with the horizontal.
a) Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.22 T. When viewed edge-on, the first surface is tilted at an angle of 21° from the horizontal, and a net magnetic flux of 6.6 x 10-4 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. (b) Find the smallest possible value of the area of the second surface. b) Near San Francisco,...
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.47 T. When viewed edge-on, the first surface is tilted at an angle of 23° from the horizontal, and a net magnetic flux of 9.2 x 10-4 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. (b) Find the smallest possible value of the area of the second surface.
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.20 T. When viewed edge-on, the first surface is tilted at an angle of 27° from the horizontal, and a net magnetic flux of 7.0 x 10-4 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. (b) Find the smallest possible value of the area of the second surface.
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.46 T. When viewed edge-on, the first surface is tilted at an angle of 14° from the horizontal, and a net magnetic flux of 8.50 x 10-3 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. m2 (b) Find the smallest possible value for the area of the second surface. m2
In a 25 T magnetic field directed vertically upward, a particle having a charge of magnitude 9.00 microC and initially moving northward at 6.4 km/s is deflected toward the east. Calculate the magnitude of the magnetic force on the particle in N.
Find the flux of Earth's magnetic field of magnitude 5.00 ⨯ 10-5 T through a square loop of area 10.0 cm2 for the following: (a) when the field is perpendicular to the plane of the loop ______ T · m2 (b) when the field makes a 40.0° angle with the normal to the plane of the loop _______T · m2 (c) when the field makes a 90.0° angle with the normal to the plane _______T · m2
Find the flux of Earth's magnetic field of magnitude 5.00 x 10-5 T through a square loop of area 10.0 cm2 for the following: (a) when the field is perpendicular to the plane of the loop T m² (b) when the field makes a 46.0° angle with the normal to the plane of the loop IT m² (c) when the field makes a 90.0° angle with the normal to the plane T.m Need Help? Read it