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Problem #3: A magnetic field B = Â 30 (mT) exists in a region. Find the...
4. A radial magnetic field 2.39 X 106 cos Ф A/1 exists in free space. Find...
4. A radial magnetic field 2.39 X 106 cos Ф A/1 exists in free space. Find magnetic flux ФВ crossing the surface defined by-n/4 (2/s)6T. Determine the magnetic flux ФВ crossing the 5. For the magnetic field B 2.5m, 0.0 < z < 2.0m. s plane surface defined by 0.5
7.34 In free space, the magnetic flux density is (a) Show that B is a magnetic field (b) Find the...
7.34 In free space, the magnetic flux density is (a) Show that B is a magnetic field (b) Find the magnetic flux through x-1,0 < 1,1 < z < 4. c) Calculate J (d) Determine the total magnetic flux through the surface of a cube defined by 0 x <2> 0 < y < 2, 0 < z < 2.
7.34 In free space, the magnetic flux density is (a) Show that B is a magnetic field (b) Find the...
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of ma...
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
A 2.0-m wire carries a current of 15 A directed along the positive x axis in a region where the magnetic field is uniform and given by Bx = 30 mT and By =-40 mT
2. A 2.0-m wire carries a current of 15 A directed along the positive x axis in a region where the magnetic field is uniform and given by Bx = 30 mT and By =-40 mT. Show that the resulting magnetic force on the wire is 1.5 N pointing into the paper. [Please show a diagram for the direction!] 4. Show that a current of 75 A must be maintained in a square loop (50 cm on a side) to create...
An equilateral triangle 8.0 cm on a side is in a 3 mT uniform magnetic field....
An equilateral triangle 8.0 cm on a side is in a 3 mT uniform magnetic field. The magnetic flux through the triangle is 6.0 μWb. What is the angle between the magnetic field and an axis perpendicular to the plane of the triangle?
In a certain region, the magnetic field is represented by the equation B = (a +...
In a certain region, the magnetic field is represented by the equation B = (a + bt)ſ, where a = 3.50 mt and b = 4.30 mT/s. A circular coil of area 1.90 x 10-3 m2 and N = 5 turns is oriented in the x-z (horizontal) plane in this field region. Due to the change in magnetic flux, charge passes by a given point in the circuit at a rate of 6.45 mc/s. Determine the resistance of the coil....
Part A The magnetic field B in a certain region is 0.2 T, and its direction...
Part A The magnetic field B in a certain region is 0.2 T, and its direction is that of the + z-axis in the Figure (Figure 1). What is the magnetic flux across the surface abcd in the figure? VALOR O ? Babcd) = Wb Part B Figure ② 1 of 1 What is the magnetic flux across the surface befc? VALP O ? 30.0 cm 40.0 cm B(befc) = 30.0 cm Part C What is the magnetic flux across...
A magnetic field of magnitude 0.53 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 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.
Assume the region to the right of a certain plane contains a uniform magnetic field of magnitude b = 1.80 mT
Assume the region to the right of a certain plane contains a uniform magnetic field of magnitude b = 1.80 mT and the field is zero in the region to the left of the plane as shown in the figure below. An electron, originally traveling perpendicular to the boundary plane, passes into the region of the field. (a) Determine the time interval required for the electron to leave the "field-filled" region, noting that the electron's path is a semicircle. (b) Assuming the...
A magnetic field is oriented at an angle of 46 ∘ to the normal of a...
A magnetic field is oriented at an angle of 46 ∘ to the normal of a rectangular area 4.8 cm by 6.0 cm. If the magnetic flux through this surface has a magnitude of 5.0×10−5 T⋅m2 , what is the strength of the magnetic field (mT)?
4. A radial magnetic field 2.39 X 106 cos Ф A/1 exists in free space. Find magnetic flux ФВ crossing the surface defined by-n/4 (2/s)6T. Determine the magnetic flux ФВ crossing the 5. For the magnetic field B 2.5m, 0.0 < z < 2.0m. s plane surface defined by 0.5
7.34 In free space, the magnetic flux density is (a) Show that B is a magnetic field (b) Find the magnetic flux through x-1,0 < 1,1 < z < 4. c) Calculate J (d) Determine the total magnetic flux through the surface of a cube defined by 0 x <2> 0 < y < 2, 0 < z < 2.
7.34 In free space, the magnetic flux density is (a) Show that B is a magnetic field (b) Find the...
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
In a certain region, the magnetic field is represented by the equation B = (a + bt)ſ, where a = 3.50 mt and b = 4.30 mT/s. A circular coil of area 1.90 x 10-3 m2 and N = 5 turns is oriented in the x-z (horizontal) plane in this field region. Due to the change in magnetic flux, charge passes by a given point in the circuit at a rate of 6.45 mc/s. Determine the resistance of the coil....
Part A The magnetic field B in a certain region is 0.2 T, and its direction is that of the + z-axis in the Figure (Figure 1). What is the magnetic flux across the surface abcd in the figure? VALOR O ? Babcd) = Wb Part B Figure ② 1 of 1 What is the magnetic flux across the surface befc? VALP O ? 30.0 cm 40.0 cm B(befc) = 30.0 cm Part C What is the magnetic flux across...
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.
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