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A 1.0 kg copper rod rests on two horizontal rails 1.0 m and carries a current...
A 2.4 kg copper rod rests on two horizontal rails (see figure below) 1.2 m apart...
A 2.4 kg copper rod rests on two horizontal rails (see figure
below) 1.2 m apart and carries a current of 65 A from one rail to
the other. The coefficient of static friction between rod and rails
is 0.51. What are the magnitude and angle (relative to the
vertical) of the smallest magnetic field that puts the rod on the
verge of sliding? (Based on the bottom picture, define to the right
as the +x direction and up as...
help me please. thank you (8c28p45) A 0.64 kg copper rod rests on two horizontal rails...
help me please. thank you
(8c28p45) A 0.64 kg copper rod rests on two horizontal rails 0.90 m apart and carries a current of 70 A from one rail to the other. The coefficient of static friction between rod and rails is 0.54. What is the smallest magnetic field (not necessarily vertical) that would cause the rod to slide? What is the angle of B from the vertical? (deg) Submit Answer Tries 0/10 What is the magnitude of B? Submit...
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...
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...
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 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=
(13%) Problem 3: A rod of m = 0.85 kg rests on two parallel rails that...
(13%) Problem 3: A rod of m =
0.85 kg rests on two parallel rails that are L =
0.55 m apart. The rod carries a current going between the
rails (bottom to top in the figure, into the page) with a magnitude
I = 3.9 A. A uniform magnetic field of magnitude
B = 0.95 T pointing upward is applied to the
region, as shown in the figure. The rod moves a distance d
= 0.85 m along the...
A-B please Problem #5 A metal rod of mass m carrying a current glides on two...
A-B please
Problem #5 A metal rod of mass m carrying a current glides on two horizontal rails a distance d apart. If the coefficient of kinetic friction between the rod and rails is , what vertical magnetic field is required to keep the rod moving at a constant speed? (20 points) Draw diagram etc.. (b) A 0.150 kg metal rod carrying a current of 10.0 A glides on two horizontal rails 0.500m apart. If the coefficient of kinetic friction...
A 2.4 kg copper rod rests on two horizontal rails (see figure
below) 1.2 m apart and carries a current of 65 A from one rail to
the other. The coefficient of static friction between rod and rails
is 0.51. What are the magnitude and angle (relative to the
vertical) of the smallest magnetic field that puts the rod on the
verge of sliding? (Based on the bottom picture, define to the right
as the +x direction and up as...
help me please. thank you
(8c28p45) A 0.64 kg copper rod rests on two horizontal rails 0.90 m apart and carries a current of 70 A from one rail to the other. The coefficient of static friction between rod and rails is 0.54. What is the smallest magnetic field (not necessarily vertical) that would cause the rod to slide? What is the angle of B from the vertical? (deg) Submit Answer Tries 0/10 What is the magnitude of B? Submit...
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...
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...
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-B please
Problem #5 A metal rod of mass m carrying a current glides on two horizontal rails a distance d apart. If the coefficient of kinetic friction between the rod and rails is , what vertical magnetic field is required to keep the rod moving at a constant speed? (20 points) Draw diagram etc.. (b) A 0.150 kg metal rod carrying a current of 10.0 A glides on two horizontal rails 0.500m apart. If the coefficient of kinetic friction...
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