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PRACTICE IT Use the worked example above to help you solve this problem. (a) The sliding...
In another application of the U shape loop problem above, Consider A rod of length 40...
In another application of the U shape loop problem above, Consider A rod of length 40 cm moving with a velocity of 30 m/s to the left in a magnetic field of 0.2 T into the page. The loop has a small resistance of 2 ohms. Find a) the emf in the loop, b) the magnitude and direction of induced current, c) the magnetic force acting on the rod and its direction, d) the appied force needed to maintain constant...
PRACTICE IT Use the worked example above to help you solve this problem. Charge q1 7.40...
PRACTICE IT Use the worked example above to help you solve this problem. Charge q1 7.40 C is at the origin, and charge q 2--4.9。pC is on the x-axis, 0.300 m from the origin (see figure). (a) Find the magnitude and direction of the electric field at point P, which has coordinates (0, 0.400) m. magnitude directiorn N/C o counterclockwise from the +x-axis (b) Find the force on a charge of 2.00 x 108 C placed at P EXERCISE HINTS:...
PRACTICE IT Use the worked example above to help you solve this problem. A circular wire...
PRACTICE IT Use the worked example above to help you solve this problem. A circular wire loop of radius 1.04 m is placed in a magnetic field of magnitude 0.495 T. The normal to the plane of the loop makes an angle of 30.0e with the magnetic field (see figure a). The current in the loop is 2.35 A in the direction shown. (a) Find the magnetic moment of the loop and,the magnitude of the torque at this instant. A...
A 1.10-m-long metal bar is pulled to the right at a steady 4.0 m/s perpendicular to...
A 1.10-m-long metal bar is pulled to the right at a steady 4.0 m/s perpendicular to a uniform, 0.790-T magnetic field. The bar rides on parallel metal rails connected through R = 25.5-Ω, as shown in the figure (Figure 1), so the apparatus makes a complete circuit. You can ignore the resistance of the bar and the rails. A) Calculate the magnitude of the emf induced in the circuit. Express your answer using two significant figures. B)Find the direction of...
A zero resistance rod is sliding west along two zero resistance rails that are 2.3 m...
A zero resistance rod is sliding west along two zero resistance rails that are 2.3 m apart, on the ground where the earth’s magnetic field is nearly vertical with a magnitude of 0.60 mT. the bar is moving with a velocity 60 m/s. As it moves through the earth’s magnetic field an EMF is generated that creates a current flowing through the rails. a far away western resistance completes the circuit with a 5 Ω. What is voltage difference across...
A 0.480 kg, 37.5 cm long metal rod is sliding down two metal rails that are inclined 42.0° to the horizontal. The r...
A 0.480 kg, 37.5 cm long metal rod is sliding down two metal rails that are inclined 42.0° to the horizontal. The rails are connected at the bottom so that the metal rod and rails form a loop that has a resistance of 52.0 Ω There is a 2.00 T vertical magnetic field throughout the region of the rails. The rod starts from rest and there is no friction between the rod and the rails. a) (3 points) Find an...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A =...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A = 0.012[m) is constant, but the magnetic field is increasing at the rate of 0.020 T/s), determine the induced emf. (Use Faraday's law; the induced emf in a loop equals the absolute value of the time rate of change of the magnetic flux through the loop.) (b) If the total resistance of the circuit is 5.0(82), find the induced current. (c) Suppose we change the...
PRACTICE IT Use the worked example above to help you solve this problem. Charge 91-685 μc...
PRACTICE IT Use the worked example above to help you solve this problem. Charge 91-685 μc is at the origin, and charge q 2 -4.80 μC is on the x-axis, 0.300 m from the origin (see figure). (a) Find the magnitude and direction of the electric field at point P, which has coordinates (o 0.400) m 384884.37 magnitude Your response differs from the correct answer by more than 10%. Double check your calculations. N/C direction o counterclockwise from the tx-axis...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
Problem 23.38 Part A The figure(Figure 1) shows a zero-resistance rod sliding to the night on...
Problem 23.38 Part A The figure(Figure 1) shows a zero-resistance rod sliding to the night on two zero-resistance rails separated by the distance L 0.359 m. The rails are connected by a 116 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.733 T Find the force that must be exerted on the rod to maintain a constant current of 0 164 A in the resistor | ΑΣΦ και ? mN Submit Request Answer...
PRACTICE IT Use the worked example above to help you solve this problem. Charge q1 7.40 C is at the origin, and charge q 2--4.9。pC is on the x-axis, 0.300 m from the origin (see figure). (a) Find the magnitude and direction of the electric field at point P, which has coordinates (0, 0.400) m. magnitude directiorn N/C o counterclockwise from the +x-axis (b) Find the force on a charge of 2.00 x 108 C placed at P EXERCISE HINTS:...
PRACTICE IT Use the worked example above to help you solve this problem. A circular wire loop of radius 1.04 m is placed in a magnetic field of magnitude 0.495 T. The normal to the plane of the loop makes an angle of 30.0e with the magnetic field (see figure a). The current in the loop is 2.35 A in the direction shown. (a) Find the magnetic moment of the loop and,the magnitude of the torque at this instant. A...
A 0.480 kg, 37.5 cm long metal rod is sliding down two metal rails that are inclined 42.0° to the horizontal. The rails are connected at the bottom so that the metal rod and rails form a loop that has a resistance of 52.0 Ω There is a 2.00 T vertical magnetic field throughout the region of the rails. The rod starts from rest and there is no friction between the rod and the rails. a) (3 points) Find an...
3. Electromagnetic Inductance. Consider a single loop under magnetic field. (a) If the area A = 0.012[m) is constant, but the magnetic field is increasing at the rate of 0.020 T/s), determine the induced emf. (Use Faraday's law; the induced emf in a loop equals the absolute value of the time rate of change of the magnetic flux through the loop.) (b) If the total resistance of the circuit is 5.0(82), find the induced current. (c) Suppose we change the...
PRACTICE IT Use the worked example above to help you solve this problem. Charge 91-685 μc is at the origin, and charge q 2 -4.80 μC is on the x-axis, 0.300 m from the origin (see figure). (a) Find the magnitude and direction of the electric field at point P, which has coordinates (o 0.400) m 384884.37 magnitude Your response differs from the correct answer by more than 10%. Double check your calculations. N/C direction o counterclockwise from the tx-axis...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
Problem 23.38 Part A The figure(Figure 1) shows a zero-resistance rod sliding to the night on two zero-resistance rails separated by the distance L 0.359 m. The rails are connected by a 116 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.733 T Find the force that must be exerted on the rod to maintain a constant current of 0 164 A in the resistor | ΑΣΦ και ? mN Submit Request Answer...
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