A long, straight wire of length 1.2 m carries current I = 1.6 A. If a...
A long, straight wire of length 1.2 m carries current I
= 1.6 A. If a magnetic field of magnitude B = 1.1 T is
directed perpendicular to the wire, what is the magnitude of the
force on the wire?
N
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A long, straight wire of length 1.2 m carries current I
= 1.6 A. If a...
4. (3 marks) A straight wire of length 0.65 m carries a current of I =...
4. (3 marks) A straight wire of length 0.65 m carries a current of I = 1.7 A. The strength of the magnetic field in the region is 1.6 T. If the force on the wire is 1.1 N, determine the angle between he field and the wire.
Part A A wire segment 1.2 m long carries a current I = 3.5 A and...
Part A A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure. A uniform magnetic field of magnitude 0.50 T pointing toward the - direction is present as shown. The +z-axis points directly into the page. What is the magnetic force vector on the wire segment? +1.6 Nj +1.6 Nk (-1.3 j + 1.6 k) N (+1.3 9 -1.6 k)N Pearson
4) A long straight wire carries current i = 2.0 A. A triangular loop (w =...
4) A long straight wire carries current i = 2.0 A. A triangular loop (w = 0.050 m and t = 0.100 m) also carries the same current and is located at distance x = 0.025 m from the straight wire as shown. Recall that the magnetic field due to a long straight wire is given by B Ho 21 4r where r is the perpendicular distance from the wire. Note: Ho/472 = 1 x 10-?T.m/A. a) Determine the magnitude...
Consider a straight piece of copper wire of length 8 m and diameter 8 mm that...
Consider a straight piece of copper wire of length 8 m and diameter 8 mm that carries a current I = 4.5 A. There is a magnetic field of magnitude B directed perpendicular to the wire, and the magnetic force on the wire is just strong enough to “levitate” the wire (i.e., the magnetic force on the wire is equal to its weight). Find B. Hint: The density of copper is 9000 kg/m3 .
A 1.50 m long straight wire lies along the z axis and carries a steady current...
A 1.50 m long straight wire lies along the z axis and carries a steady current in the +z direction. A uniform magnetic field exists everywhere in space and is given by B⃗→ = (3.00 i^ + 4.00 j^) T. If the field exerts a force on the wire of magnitude 60.0 N, find the current carried by the wire.
A long, straight wire carries a current of 5.20 A. An electron is traveling in the...
A long, straight wire carries a current of 5.20 A. An electron is traveling in the vicinity of the wire. Part A At the instant when the electron is 4.30 cm from the wire and traveling with a speed of 6.10×104 m/s directly toward the wire, what is the magnitude of the force that the magnetic field of the current exerts on the electron? Part B What is the direction (relative to the direction of the current) of this force?...
Check my work Wire with current I Electron A long straight wire carries a current of...
Check my work Wire with current I Electron A long straight wire carries a current of 60.5 A. An electron, traveling at 1.00x 10 m/s, is 7.60 cm from the wire. What force acts on the electron if the electron's velocity is directed toward the wire? If the direction of force is perpendicular to the current, enter a negative value.
A long straight horizontal wire carries a current I = 3.40 A to the left.
Learning Goal: To practice Problem-solving Strategy 24.2 Magnetic force problems A long straight horizontal wire carries a current I = 3.40 A to the left. A positive 1.00 C charge moves to the right at a distance 2.00 m above the wire at constant speed v = 5000 m/s. (Figure 1) What are the magnitude and the direction of the magnetic force on the charge? Part C What is the magnitude B of the magnetic field at the location of the charge due...
A wire of length 0.75 m is conducting a current of 1 = 6.3 A in...
A wire of length 0.75 m is conducting a current of 1 = 6.3 A in the x-direction through a B = 5.0-T uniform magnetic field that is directed parallel to the wire in the-x-direction. a. What are the magnitude and direction of the magnetic force on the wire? b. The magnetic field changes, so that now the force on the wire is F= 7.0 N in the y-direction. What are the magnitude and direction of the magnetic field now?...
A long straight wire carries a current of 5.0 A thereby creating a B field in...
A long straight wire carries a current of 5.0 A thereby creating a B field in a circle around itself with a magnitude of 0.001 T at a distance of 0.001 m. A wire loop with a 0.001 m radius carries a current of 2.0 A and is centered on the long straight wire. What is the magnitude and direction of the force on the wire loop due to the B field created by the long straight wire?
4. (3 marks) A straight wire of length 0.65 m carries a current of I = 1.7 A. The strength of the magnetic field in the region is 1.6 T. If the force on the wire is 1.1 N, determine the angle between he field and the wire.
Part A A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure. A uniform magnetic field of magnitude 0.50 T pointing toward the - direction is present as shown. The +z-axis points directly into the page. What is the magnetic force vector on the wire segment? +1.6 Nj +1.6 Nk (-1.3 j + 1.6 k) N (+1.3 9 -1.6 k)N Pearson
4) A long straight wire carries current i = 2.0 A. A triangular loop (w = 0.050 m and t = 0.100 m) also carries the same current and is located at distance x = 0.025 m from the straight wire as shown. Recall that the magnetic field due to a long straight wire is given by B Ho 21 4r where r is the perpendicular distance from the wire. Note: Ho/472 = 1 x 10-?T.m/A. a) Determine the magnitude...
Check my work Wire with current I Electron A long straight wire carries a current of 60.5 A. An electron, traveling at 1.00x 10 m/s, is 7.60 cm from the wire. What force acts on the electron if the electron's velocity is directed toward the wire? If the direction of force is perpendicular to the current, enter a negative value.
A wire of length 0.75 m is conducting a current of 1 = 6.3 A in the x-direction through a B = 5.0-T uniform magnetic field that is directed parallel to the wire in the-x-direction. a. What are the magnitude and direction of the magnetic force on the wire? b. The magnetic field changes, so that now the force on the wire is F= 7.0 N in the y-direction. What are the magnitude and direction of the magnetic field now?...
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