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A thick uniform wire is bent into the shape of the letter "U" as shown on...
QUESTION 3: A wire having a uniform linear charge density is bent into the shape shown in Figure. Find the electric potential at point 0.
A wire having a uniform linear charge density 2 is bent into the shape shown in the figure below 2R O . - -- - --- - -- - 1. Find the electric potential at a distance "z" along the line passing through "o" and perpendicular to the plane of the wire as shown below (Use the following as necessary: R, ke and 1.)
A wire having a uniform linear charge density λ is bent into the shape shown in the figure below. Find the electric potential at point O.
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A piece of wire carrying 25 A bent into the shape shown is near a long straight wire which is carrying 45 A. What is the net force on the bent piece of wire due to the long wire?
2) A straight wire is partially bent into the shape of a circle as shown below. A uniform magnetic field is directed perpendicular to the plane of the circle and into the page. Each end of the wire is then pulled at a constant speed so that the area of the circle shrinks to zero. (a) Sketch a graph of the magnetic flux with respect to time. flux time (b)Is the direction of the induced current in the circular wire...
2) A straight wire is partially bent into the shape of a circle as shown below. A uniform magnetic field is directed perpendicular to the plane of the circle and into the page. Each end of the wire is then pulled at a constant speed so that the area of the circle shrinks to zero. (a) Sketch a graph of the magnetic flux with respect to time. flux time (b)Is the direction of the induced current in the circular wire...
[12] 13. A piece of wire is bent in the shape shown (two 550 cm horizontal section and a semi circle section with radius 285 cm). Determine the magnetic field (magnitude and direction) at point P, the center of the semicircle. The current/- 19.5 mA. (Hint you need Biot-Savart Law.) If you show your work in an organized and clear manner
Q8. A wire bent into a semi-donut shape as shown below carries a current that increases linearly with time 1(t) = kt where k is some constant. Calculate the retarded vector potential at the center of the semi-circles, and obtain the electric field there. (10 pts). FIG.1. Current carrying wire loop
A uniform rod having a mass of 0.6 kg/m is bent into the shape shown and held at rest in the horizontal position by means of a pin at O. If4.1 m, determine the angular acceleration of the rod at release (in rad/s2). (2 decimal places)
A uniform rod having a mass of 0.6 kg/m is bent into the shape shown and held at rest in the horizontal position by means of a pin at O. If4.1 m, determine the...
4. A bead of mass m slides on a frictionless wire bent into the shape of a parabola 2 yd as shown above. Gravity acts in the negative y direction. A spring with elastic constant k and rest length d/2 connects the bead to a fixed anchor at the point (0, -d). Find the frequency of small oscillations about equilibrium. Hint: Find the potential energy Uof the bead. Then expand Uin series, keeping only the leading x2 term, to obtain...