Coulomb’s Law
A massless sphere of charge q1 = 0.640 µC is at the end of a spring in equilibrium as shown below in figure a. When a charge q2 = -0.410 µC is held beneath the positively charged sphere as shown in figure b, the spring stretches by a distance d = 3.60 cm from its position in figure a. When equilibrium is reestablished, the distance r between the charges is 5.20 cm. What is the spring constant of the spring? The spring force and the electric force are the only relevant forces in this problem.
__A small spherical ball of mass 38.0 grams and charge 0.500 μC is hung by a thin wire of negligible mass. A charge of -0.950 μC is held 0.150 m away from the hanging sphere and directly to the right of it, so the wire makes an angle θ with the vertical as shown below. Find (a) the angle θ and (b) the tension in the wire. Only gravity, tension and the electric force are relevant for this problem.
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Coulomb’s Law
A massless sphere of charge q1 = 0.640 µC is at the end of...
A small sphere of charge q1 = 0.864 µC hangs from the end of a spring...
A small sphere of charge q1 = 0.864 µC hangs from the end of a spring as
in Figure a. When another small sphere of charge
q2 = -0.66
µC is held beneath the first sphere as in Figure b, the spring
stretches by d = 3.27
cm from its original length and reaches a new equilibrium position
with a separation between the charges of r = 4.80 cm. What is the force constant of the
spring?
N/m
A small spherical insulator of mass 3.01 x 10-2 kg and charge q1 = +0.600 µC...
A small spherical insulator of mass 3.01 x 10-2 kg and charge q1 = +0.600 µC is hung by a thin wire of negligible mass. A charge q2 = -0.900 µC is held 0.150 m away from the sphere and directly to the right of it, so the wire makes an angle ? with the vertical (a) Find the angle ?. ° (b) Find the tension in the wire. N
A small sphere of charge q1 = 0.880 μC hangs from the end of a spring...
A small sphere of charge q1 = 0.880 μC hangs from the end of a spring as in figure (a), when another small sphere of charge q2 = _0.66 pC is held beneath the first sphere as in figure (b), the spring stretches by d = 3.81 cm from its original length and reaches a new equilibrium position with a separation between the charges of r = 5.20 cm . what is the force constant of the spring? N/m 42
A small pith ball with a charge of -0.600 µC hangs from the end of a...
A small pith ball with a charge of -0.600 µC hangs from the end
of a spring as in as in the figure. When another small pith ball of
charge 0.400 µC is held beneath the first pith ball, the spring
stretches by d from its original length and reaches a new
equilibrium position with a separation between the charges of r =
5.00 cm. If the spring constant of the spring is 56.0 N/m, what is
the distance d...
A tiny sphere with a charge of q = +8.0 µC is attached to a spring....
A tiny sphere with a charge of q = +8.0 µC is attached to a spring. Two other tiny charged spheres, each with a charge of ❝4.0-µC, are placed in the positions shown in the figure, in which b = 4.5 cm. The spring stretches 5.0 cm from its previous equilibrium position toward the two spheres. Calculate the spring constant.
written problem #2 A sphere of mass m and charge q is hanging from a massless...
written problem #2 A sphere of mass m and charge q is hanging from a massless rope in a region with an electric field as shown in the figure. Earth's gravity is pointing downward. The system is in static equilibrium. Find the angle θ and the tension in the rope, T g, m E-2.5x 10 9-40 nC m 5.0 grams
A positive charge q1 = 2.70 μC on a frictionless horizontal surface is attached to a...
A positive charge q1 = 2.70 μC on a frictionless horizontal surface is attached to a spring of force constant k as in the figure below. When a charge of q2 = -8.60 μC is placed 9.50 cm away from the positive charge, the spring stretches by 5.00 mm, reducing the distance between charges to d = 9.00 cm. a)Write, in symbols, the equation of the force that the charge q2exerts on the charge q1.b)Write, in symbols, the equation of...
Consider the following figure of two charged spheres suspended from insulating strings as shown 2. Suppose...
Consider the following figure of two charged spheres suspended from insulating strings as shown 2. Suppose the charge q on each small sphere is 1.0 μC, the distance a is 30 cm, and L = 50 cm Determine the best match for each item. Suppose the charge q on each small sphere is 1.0 HC, the distance a is 30 cm, and L-50 cm Determine the best match for each item. net force for each sphere Choose... string tensionN Choose...
A sphere is attached to a thread of length L = 24.3 cm and suspended from the ceiling
(a) A sphere is attached to a thread of length L = 24.3 cm and suspended from the ceiling, as shown in the figure. A uniform electric field points to the right in the figure, when θ = 16.0°, the sphere is in equilibrium. Find the net charge on the sphere (in μC)_______ μC(b) What If? If the electric field is suddenly turned off, what is the speed of the sphere at the bottom of its swing (in m/s)? _______ m/s
Written problem #2 A sphere of mass m and charge q is hanging from a massless...
Written problem #2 A sphere of mass m and charge q is hanging from a massless rope in a region with an electric field as shown in the figure. Earth's gravity is pointing downward. The system is in static equilibrium Find the angle 0 and the tension in the rope, T. q, m Е-2.5x 105 £ 40 nC m = 5.0 grams
A small sphere of charge q1 = 0.864 µC hangs from the end of a spring as
in Figure a. When another small sphere of charge
q2 = -0.66
µC is held beneath the first sphere as in Figure b, the spring
stretches by d = 3.27
cm from its original length and reaches a new equilibrium position
with a separation between the charges of r = 4.80 cm. What is the force constant of the
spring?
N/m
A small sphere of charge q1 = 0.880 μC hangs from the end of a spring as in figure (a), when another small sphere of charge q2 = _0.66 pC is held beneath the first sphere as in figure (b), the spring stretches by d = 3.81 cm from its original length and reaches a new equilibrium position with a separation between the charges of r = 5.20 cm . what is the force constant of the spring? N/m 42
A small pith ball with a charge of -0.600 µC hangs from the end
of a spring as in as in the figure. When another small pith ball of
charge 0.400 µC is held beneath the first pith ball, the spring
stretches by d from its original length and reaches a new
equilibrium position with a separation between the charges of r =
5.00 cm. If the spring constant of the spring is 56.0 N/m, what is
the distance d...
written problem #2 A sphere of mass m and charge q is hanging from a massless rope in a region with an electric field as shown in the figure. Earth's gravity is pointing downward. The system is in static equilibrium. Find the angle θ and the tension in the rope, T g, m E-2.5x 10 9-40 nC m 5.0 grams
Consider the following figure of two charged spheres suspended from insulating strings as shown 2. Suppose the charge q on each small sphere is 1.0 μC, the distance a is 30 cm, and L = 50 cm Determine the best match for each item. Suppose the charge q on each small sphere is 1.0 HC, the distance a is 30 cm, and L-50 cm Determine the best match for each item. net force for each sphere Choose... string tensionN Choose...
Written problem #2 A sphere of mass m and charge q is hanging from a massless rope in a region with an electric field as shown in the figure. Earth's gravity is pointing downward. The system is in static equilibrium Find the angle 0 and the tension in the rope, T. q, m Е-2.5x 105 £ 40 nC m = 5.0 grams
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