Two Infinitely Long Wires carrying current in the opposite direction
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Q: Three long, straight wires are seen end-on in the figure below. The distance between the wires is r=…
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Q: Three long, straight wires are seen end-on in the figure below. The distance between the wires is r=…
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Q: Three long, straight wires are seen end-on in the figure below. The distance between the wires isr =…
A: Recall F/L=μ0I1I2/2πr Using this formula we have .
Two Infinitely Long Wires carrying current in the opposite direction
Draw x,y,z coordinate and Show clearly the directions of the given problem which match the drawn coordinate you have drawn. Use unit vectors for multiplication and calculations.
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- A vector needs three quantities for its specification. Name the three independent quantities conventionally used to specify the earth’s magnetic field. (Answer it regarding earth's magnetic field.Three long, straight wires are seen end-on in the figure below. The distance between the wires is r = 0.246 m. Wires A and B carry current Iд = IB = 1.60 A, and wire C carries current Ic = 3.46 A. Assume (for example) the only forces exerted on wire A are due to wires B and C. Find the force per unit length exerted on the following. (Express your answers in vector form.) (a) wire A A = = B (b) wire B = A N/m N/m Ic y xA rectangular wire loop of height h, width w, and net electrical resistance R lies in the x-y plane. As shown in the figure below, the entire region x < 0 of space is occupied by a constant, uniform magnetic field which points in the –z direction (into the page). In order to determine the magnitude of this field, a student pulls the wire loop out of the magnetic field region at a constant velocity v in the +x-direction, and measures the current I induced in the loop during this process. I = 17 μAR = 35 ohmsh = 3 cm w = 8 cmv = 2 cm/sec a) What is the direction of the current induced in the wire loop? b)What is the magnitude B of the magnetic field?
- A rectangular conducting frame has a steady current of the magnitude i. It is placed in a non-uniform magnetic field zone, as shown in the figure. The edge lengths of the rectangle are a and b. The magnetic field is given as, b B = (B, + 4.0y²) & (Here k is the unit vector along +z – axis, B, is a constant and y is the posi along y – axis) °B a Find the magnitude of the magnetic force on the frame, in terms of the given parameters. (Assume the frame is exactly on the xy-plane) ... ... .. ... ... .00... ...Three long, straight wires are seen end-on in the figure below. The distance between the wires is r = 0.258 m. Wires A and B carry current IA = IB = 1.54 A, and wire C carries current IC = 3.42 A. Assume (for example) the only forces exerted on wire A are due to wires B and C. Find the force per unit length exerted on the following. (Express your answers in vector form.) (a) wire A fA = N/m (b) wire B fB = N/mLet v the velocity of a particle in a constant magnetic field B. We wish to decompose v into v = v⊥ + vk where v⊥ is perpendicular to the magnetic field and vk is parallel to it. Derive vector expressions for v⊥ and vk in terms of v and B.
- Three long, straight wires are seen end-on in the figure below. The distance between the wires is r= 0.254 m. Wires A and B carry current IA = IB = 1.51 A, and wire C carries current Ic = 3.30 A. Assume (for example) the only forces exerted on wire A are due to wires B and C. Find the force per unit length exerted on the following. (Express your answers vector form.) B (a) wire A (b) wire B IB TA N/m N/m Ic XWire 1 carries 1.40 A of current north, wire 2 carries 3.40 A of current south, and the two wires are separated by 1.40 m. 1)Calculate the magnitude of the force acting on a 1.00-cm section of wire 1 due to wire 2. (Express your answer to three significant figures.)Three long, straight wires are seen end-on in the figure below. The distance between the wires is r = 0.266 m. Wires A and B carry current IA = IB = 1.48 A, and wire C carries current Ic = 3.22 A. Assume (for example) the only forces exerted on wire A are due to wires B and C. Find the force per unit length exerted on the following. (Express your answers in vector form.) A (a) wire A FA = B = (b) wire B IB Ic C |(3.88-10-7) – (6.71 · 10−7)ĵ N/m y X N/m