Determine the magnitude of the magnetic flux through the south-facing window of a house in British Columbia, where Earth's B⃗ field has a magnitude of 5.8×10−5T and the direction of B⃗ field is 72∘ below horizontal with the horizontal component of B⃗ field directed to the north. Assume the area of the window is 1.0 m2.
Determine the magnitude of the magnetic flux through the south-facing window of a house in British...
Find the magnitude of the magnetic flux through the floor of a house that measures 20 m by 19 m . Assume that the Earth's magnetic field at the location of the house has a horizontal component of 3.0×10−5 T pointing north, and a downward vertical component of 4.6×10−5 T
*It is a west-facing room Magnetic Flux: 1, Earth's magnetic field in the room has magnitude 52.5μΤ and lies in a north-south plane but points downward at an angle of 65.0° relative to horizontal. Determine the magnetic flux through each surface of a 3mx3m room with a roof angled at 30° relative to horizontal (the low wall has a height of 3m). Magnetic Flux: 1, Earth's magnetic field in the room has magnitude 52.5μΤ and lies in a north-south plane...
A horizontal power line carries a current of 5830 A from south to north. Earth's magnetic field (85.2 µT) is directed toward the north and is inclined downward at 72.0° to the horizontal. Find the (a) magnitude and (b) direction of the magnetic force on 120 m of the line due to Earth's field.
The electron that flies in the tube has energy of 12 keV. The cathode-ray tube is oriented so that the electrons move in a horizontal direction from the south to the north. Earth's magnetic field component B = 5.5 * 10-5T is facing downwards. In what direction will the electron beam be tilted? How big is the electron beam deflection x when the electrons in the tube have flown 20 cm?
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.
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
Chapter 28, Problem 039 A horizontal power line carries a current of 5560 A from south to north. Earth's magnetic field (52.0 µT) is directed toward the north and is inclined downward at 54.0° to the horizontal. Find the (a) magnitude and (b) direction of the magnetic force on 90.0 m of the line due to Earth's field.
Chapter 28, Problem 039 A horizontal power line carries a current of 6750 A from south to north. Earth's magnetic field (60.1 μΤ) is directed toward the north and is inclined downward at 65.0° to the horizontal. Find the (a) magnitude and (b) direction of the magnetic force on 120 m of the line due to Earth's field (a) Number Units the tolerance is +/-2%