A conducting rod slides on two wires in a region with a magnetic field. The two...

A conducting rod of mass M with negligible electrical resistance slides on a pair of frictionless,...

A conducting rod of mass M with negligible electrical resistance slides on a pair of frictionless, horizontal, parallel, conducting rails separated by a distance L. The two rods are connected by an electrical resistance of R. A uniform magnetic field B is directed vertically upward in the entire region. Looking from above, is the conventional current flowing cw or ccw?                                                                                                       (2 pt) Determine the current through the resistor.                                                                                          (4 pt) Find the force necessary to keep the rod moving at...

1. A conducting rod of length 0.1 m is pushed along a conducting rail through a...

1. A conducting rod of length 0.1 m is pushed along a conducting rail through a constant magnetic field of strength 0.15 T. How fast in meters per second would the rod have to be moved in order to produce an emf of 3 V? 2. Taking the moving rod from the previous question and the result for the current, what force in N would an agent (e.g. a human hand) need to exert on the rod in order to...

A uniform magnetic field is directed into the screen. There are two parallel conducting rails, running...

A uniform magnetic field is directed into the screen. There are two parallel conducting rails, running horizontally, in the field, with a conducting rod on top of the rails. The rails are a distance L apart. The picture shows a force F directed to the right on the rod. The rails are joined at the left by a resistor of resistance R. ​We'll use these values: L = 20 cm; B = 4.0 T; F = 3.2 N; and R...

A conducting rod slides down between two frictionless vertical copper tracks at a constant speed of...

A conducting rod slides down between two frictionless vertical copper tracks at a constant speed of 5.6 m/s perpendicular to a 0.57-T magnetic field. The resistance of the rod and tracks is negligible. The rod maintains electrical contact with the tracks at all times and has a length of 1.2 m. A 1.1- resistor is attached between the tops of the tracks. (a) What is the mass of the rod? (b) Find the change in the gravitational potential energy that...

Consider a rod of length l moving at speed v in an external magnetic field B,...

Consider a rod of length l moving at speed v in an external magnetic field B, inducing an emf ε. The moving rod is placed on a fixed conductive rail with resistance R. If the magnetic field is divided by 2, the external force that will be required to maintain the speed of the rod constant will:   be divided by 3 increase by a factor of 3 remain constant increase by a factor of 9 be divided by 9

Consider a conducting rod of length 2.50 m immersed in a uniform magnetic field with strength...

Consider a conducting rod of length 2.50 m immersed in a uniform magnetic field with strength 4.00 T and oriented as shown in the figure. Assume that this rod is part of a closed conducting loop and is free to move. If this rod moves with speed 4.00 m/s in the +? − direction, what is the magnitude of the induced emf?

A copper rod is sliding on two conducting rails that make an angle of 19° with...

A copper rod is sliding on two conducting rails that make an angle of 19° with respect to each other, as in the drawing. The rod is moving to the right with a constant speed of 0.60 m/s. A 0.29-T uniform magnetic field is perpendicular to the plane of the paper. Determine the magnitude of the average emf induced in the triangle ABC during the 8.5-s period after the rod has passed point A.

Consider two very long conducting parallel wires carry currents in opposite directions such that one is...

Consider two very long conducting parallel wires carry currents in opposite directions such that one is triple of the other. The distance between wires is 30 cm. The magnetic field at points on a line between the wires, and at a distance of 5 cm from the wire carrying the smaller current, is 2.5×10-5 T. a) Draw a diagram of the situation. Assume the wires are placed in the x-direction. Draw the direction of the magnetic field at points on...

A conducting rod spans a gap of length L = 0.23 m and acts as the...

A conducting rod spans a gap of length L = 0.23 m and acts as the fourth side of a rectangular conducting loop, as shown in the figure. A constant magnetic field B = 0.55 T pointing into the paper is in the region. The rod is moving under an external force with an acceleration a = At2, where A = 4.5 m/s4. The resistance in the wire is R = 145 Ω. a. Express the magnitude of the magnetic...

A circular conducting loop of radius 23.0 cm is located in a region of homogeneous magnetic...

A circular conducting loop of radius 23.0 cm is located in a region of homogeneous magnetic field of magnitude 0.500 T pointing perpendicular to the plane of the loop. The loop is connected in series with a resistor of 123 Ω. The magnetic field is now increased at a constant rate by a factor of 2.20 in 11.0s. c) With the magnetic field held constant at its new value of 1.10 T, calculate the magnitude of the average induced voltage...