A wire is suspended horizontally by two vertical wires as shown in the figure. Find the tension in the left vertical wire if the mass of the horizontal wire is 68 g, d=0,40 m, I=9.25 A and B-61.64 mT. Magnetic Field B is perpendicular and out of the page I I The vertical wires are massless Select one: a. 0.447...
ans
is C
Two long, fixed, parallel, thick rails are lying in a region having uniform magnetic field, perpendicular to the plane of the rails. Two identical sliders of mass m and resistance Reach (initially at rest) can slide over the rails. If one of the slider is given velocity Vo, the velocity of the other slider after considerably long...
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A uniform magnetic field of magnitude 3.00 LT is applied in the negative x direction. An electron is shot at the origin with an initial velocity of v (1.50 i+ 10.0 k) x 10° m/s and moves in a helix, as shown. Determine the electron's acceleration in the x direction. а....
Four parallel wires that are long and straight are positioned as shown. Two of the wires carry currents that are directed outward, and two of the wires carry currents that are directed inward. All four currents have equal magnitude. Which one of the following phrases best describes the direction of the net magnetic force acting on the wire shown at...
Two point-like charges are placed as shown in the figure, r11 =
18.0 cm and r22 = 52.0 cm. Find the magnitude of the electric field
at point (p) shown in the figure. Let q11 = −23.0 µC, q22 = +40.0
µC.
N/C
2
The electric potential at a position located a distance of 21.3 mm from a positive point charge of 8.50×10-9C and 10.0 mm from a second point charge is 1.26 kV. Calculate the value of the second charge. Submit Answer Tries 0/12
40 A positive point charge is located at the origin of an x-y coordinate system, and an electron is placed at a location where the electric field due to the point charge is given by E Eo(i +j),where Eo is positive. What is the direction of the force on the electron?
The electric potential at a position located a distance of 22.8 mm from a positive point charge of 6.70×10-9C and 15.1 mm from a second point charge is 1.02 kV. Calculate the value of the second charge Suomt Answer Tries 0/12
Two point-like charges are placed as shown in the figure, r1 =
18.0 cm and r2 = 52.0 cm. Find the magnitude of the electric field
at point (p) shown in the figure. Let q1 = −17.0 µC, q2 = +22.0
µC.
91 12 1
1. Point charges of 5nC and -2nC are located at (2,0,4) and (-3,0,5), respectively. (a) determine the electric field at all points in space. (b) determine the force on a 1 nC point charge located at (1,-3,7). Ans: (b) - 1.00 - 1.289 + 1.42 nN