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Problem #5 A metal rod of mass m carrying a current glides on two...
Steps needed. Thanks! 4. A 0.200 kg metal rod carrying a current of 10.0 A glides...
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4. A 0.200 kg metal rod carrying a current of 10.0 A glides on two horizontal rails 0.500 rm apart. What vertical magnetic field is required to keep the rod moving at a constant speed if the coefficient of kinetic friction between the rod and rails is 0.100?
A metal rod of mass m carrying a current I glides on two horizontal rails a...
A metal rod of mass m carrying a current I glides on two horizontal rails a distance d apart. If the coefficient of kinetic friction between the rod and rails is μk, what vertical magnetic field is required to keep the rod moving at a constant speed? (Use any variable or symbol stated above along with the following as necessary: g.) B=
A 0.100-kg metal rod carrying a current of 15.0 A glides on two horizontal rails 0.550...
A 0.100-kg metal rod carrying a current of 15.0 A glides on two horizontal rails 0.550 m apart and 2.0 m long, (a) If the coefficient of kinetic friction between the rod and rails is 0.120, what vertical magnetic field is required to keep the rod moving at a constant speed? (b) If the friction between the rod and rail is reduced zero, the rod will accelerate. If the rod starts from rest at the one end of the rails,...
A 0.300-kg metal rod carrying a current of 12.0 A glides on two horizontal rails 0.590...
A 0.300-kg metal rod carrying a current of 12.0 A glides on two horizontal rails 0.590 m apart and 2.0 m long. (a) If the coefficient of kinetic friction between the rod and rails is 0.160, what vertical magnetic field is required to keep the rod moving at a constant speed? (b) If the friction between the rod and rail is reduced zero, the rod will accelerate. If the rod starts from rest at the one end of the rails,...
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...
A 0.480 kg, 37.5 cm long metal rod is sliding down two metal rails that are...
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...
Chapter 28, Problem 047 A copper rod of mass m -1.02 kg rests on two horizontal...
Chapter 28, Problem 047 A copper rod of mass m -1.02 kg rests on two horizontal rails a distance L 0.979 m apart and carries a current of i 49.0 A from one rail to the other. A top view and a side view are shown in the figure. The coefficient of static friction between rod and rails is u- 0.590. What are the (a) magnitude and (b) angle (relative to the vertical) of the smallest magnetic field that puts...
1. A conducting rod of length 0.500 m and resistance 2.00 ohms moves to the right...
1. A conducting rod of length 0.500 m and resistance 2.00 ohms moves to the right on metal rails as shown below. The rails have no friction and no electrical resistance. A uniform magnetic field of magnitude 4.00 T is directed into the paper. What is the magnitude of the force that an external agent would need to exert on the rod to keep it moving to the right at a speed of 10.0 m/s (in N)? (A) 20.0 (B)...
Question 10 A copper rod of mass m 0.912 kg rests on two horizontal rails a...
Question 10 A copper rod of mass m 0.912 kg rests on two horizontal rails a distance L-1.08 m apart and carries a current of i 51.0 A from one rail to the other. A top view and a side view are shown in the figure. The coefficient of static friction between rod and rails is 0.580. What are the (a) magnitude and (b) angle (relative to the vertical) of the smallest magnetic field that puts the rod on the...
A 1.0 kg copper rod rests on two horizontal rails 1.0 m and carries a current...
A 1.0 kg copper rod rests on two horizontal rails 1.0 m and carries a current of 50 A from one rail to the other. The coefficient of static friction between the rod and the rails is 0.60. What is the smallest magnetic field (not necessarily vertical) that would cause the rod to slide?
Steps needed.
Thanks!
4. A 0.200 kg metal rod carrying a current of 10.0 A glides on two horizontal rails 0.500 rm apart. What vertical magnetic field is required to keep the rod moving at a constant speed if the coefficient of kinetic friction between the rod and rails is 0.100?
A 0.100-kg metal rod carrying a current of 15.0 A glides on two horizontal rails 0.550 m apart and 2.0 m long, (a) If the coefficient of kinetic friction between the rod and rails is 0.120, what vertical magnetic field is required to keep the rod moving at a constant speed? (b) If the friction between the rod and rail is reduced zero, the rod will accelerate. If the rod starts from rest at the one end of the rails,...
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...
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...
Chapter 28, Problem 047 A copper rod of mass m -1.02 kg rests on two horizontal rails a distance L 0.979 m apart and carries a current of i 49.0 A from one rail to the other. A top view and a side view are shown in the figure. The coefficient of static friction between rod and rails is u- 0.590. What are the (a) magnitude and (b) angle (relative to the vertical) of the smallest magnetic field that puts...
1. A conducting rod of length 0.500 m and resistance 2.00 ohms moves to the right on metal rails as shown below. The rails have no friction and no electrical resistance. A uniform magnetic field of magnitude 4.00 T is directed into the paper. What is the magnitude of the force that an external agent would need to exert on the rod to keep it moving to the right at a speed of 10.0 m/s (in N)? (A) 20.0 (B)...
Question 10 A copper rod of mass m 0.912 kg rests on two horizontal rails a distance L-1.08 m apart and carries a current of i 51.0 A from one rail to the other. A top view and a side view are shown in the figure. The coefficient of static friction between rod and rails is 0.580. What are the (a) magnitude and (b) angle (relative to the vertical) of the smallest magnetic field that puts the rod on the...
A 1.0 kg copper rod rests on two horizontal rails 1.0 m and carries a current of 50 A from one rail to the other. The coefficient of static friction between the rod and the rails is 0.60. What is the smallest magnetic field (not necessarily vertical) that would cause the rod to slide?
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