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to a thread of length sphere is in equilbrium. Find the net charge on the sphere...
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
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 (b) What In If the electric field is suddenly turned off, what is the speed of the sphere at the bottom of its swing (in m/s)?
I need part B . Numerical answer apter 22 PHY 211 Page 4 of 8 10.-/10...
I need part B . Numerical answer
apter 22 PHY 211 Page 4 of 8 10.-/10 pointsSerPSE10 22.4.0P.017. (a) A sphere is attached to a string of length L- 17.1 cm and suspended from the ceilling, as shown in the figure. A uniform electric fleld points to the right in the f E-1.00 × 10, N/C m 2.00 g (b) What I1? If the electric field is suddenly turned off, what is the speed of the sphere at the bottom...
A ball is attached to a thread of length L = 16.8 cm and suspended from the ceiling
(a)A ball is attached to a thread of length L = 16.8 cm
and suspended from the ceiling, as shown in the figure. A uniform
electric field points to the right in the figure. Whenθ = 15.5°,the ball is in equilibrium. Find the net charge on the ball (in
µC).A ball is attached to a thread of length Land suspended
from the ceiling. The thread makes an angle θ with the
normal line from the ceiling, such that the thread...
Metal sphere A of radius 13.0 cm carries 7.00 uC of charge, and metal sphere B...
Metal sphere A of radius 13.0 cm carries 7.00 uC of charge, and metal sphere B of radius 16.0 cm carries -3.00 uC of charge. If the two spheres are attached by a very long conducting thread, what is the final distribution of charge on the two spheres? 2.87 charge on sphere A Your response differs from the correct answer by more than 10%. Double check your calculations. UC 7.0 charge on sphere B Your response differs from the correct...
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find...
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find the electric field 10.0 cm from the filament, where distances are measured perpendicular to the length of the filament. (Take radially inward toward the filament as the positive direction.) MN/C (b) Find the electric field 48.0 cm from the filament, where distances are measured perpendicular to the length of the filament. MN/C (c) Find the electric field 150 cm from the filament, where distances...
4. A hollow, metallic sphere with a 25.0 cm radius carries a net charge of 20.0...
4. A hollow, metallic sphere with a 25.0 cm radius carries a net charge of 20.0 uC. Assuming electrostatic conditions, find the electric field value at the following distances from the sphere's center: a) 25.0 cm (the surface of the sphere) b) 50.0 cm (outside the sphere, twice the distance from its center) c) 10.0 cm (inside the sphere) 5. Under normal atmospheric conditions, there exists a weak electric field near the earth's surface, pointing vertically downward, whose value is...
Consider the two small, equal-mass, charged spheres shown in the figure. The top sphere is suspended...
Consider the two small, equal-mass, charged spheres shown in the figure. The top sphere is suspended from the celling by a filament, and has a charge of 91 27.8 nC. The bottom sphere has a charge of 42--58.0 nC, and is directly below the top sphere. Assume d -2.00 cm and m -6.80 g. ร้า 92 (a) Calculate the tension (in N) in the filament. (b) If the filament can withstand a maximum tension of 0.180 N, what is the...
(a) A point charge produces an electric flux of +455 Nm2/C through a Gaussian sphere of...
(a) A point charge produces an electric flux of +455 Nm2/C through a Gaussian sphere of radius 14.0 cm centered on the charge. i. Determine the sign and magnitude of the charge enclosed. Positive / Negative ii. ANS: What is the electric flux through a Gaussian sphere with a radius 26.5 cm centered on the same charge? (b) ANS: Two charges l_ = -4.0 uC and Q2 = +4.0 uC are located on the y-axis at Y1 = -5.0 cm...
4.90 x 104 N/C. An isolated charged conducting sphere has a radius R = 10.0 cm....
4.90 x 104 N/C. An isolated charged conducting sphere has a radius R = 10.0 cm. At a distance of r 22.0 cm from the center f the sphere the electric field due to the sphere has a magnitude of E (a) What is its surface charge density (in uC/m)? HC/m (b) its capacitance (in pF)? What nF (c) What If? A larger sphere radius 30.0 cm now added as to be concentric with the first sphere, What the capacitance...
I need part B . Numerical answer
apter 22 PHY 211 Page 4 of 8 10.-/10 pointsSerPSE10 22.4.0P.017. (a) A sphere is attached to a string of length L- 17.1 cm and suspended from the ceilling, as shown in the figure. A uniform electric fleld points to the right in the f E-1.00 × 10, N/C m 2.00 g (b) What I1? If the electric field is suddenly turned off, what is the speed of the sphere at the bottom...
(a)A ball is attached to a thread of length L = 16.8 cm
and suspended from the ceiling, as shown in the figure. A uniform
electric field points to the right in the figure. Whenθ = 15.5°,the ball is in equilibrium. Find the net charge on the ball (in
µC).A ball is attached to a thread of length Land suspended
from the ceiling. The thread makes an angle θ with the
normal line from the ceiling, such that the thread...
Metal sphere A of radius 13.0 cm carries 7.00 uC of charge, and metal sphere B of radius 16.0 cm carries -3.00 uC of charge. If the two spheres are attached by a very long conducting thread, what is the final distribution of charge on the two spheres? 2.87 charge on sphere A Your response differs from the correct answer by more than 10%. Double check your calculations. UC 7.0 charge on sphere B Your response differs from the correct...
The charge per unit length on a long, straight filament is - 94.5 PC/m. (a) Find the electric field 10.0 cm from the filament, where distances are measured perpendicular to the length of the filament. (Take radially inward toward the filament as the positive direction.) MN/C (b) Find the electric field 48.0 cm from the filament, where distances are measured perpendicular to the length of the filament. MN/C (c) Find the electric field 150 cm from the filament, where distances...
4. A hollow, metallic sphere with a 25.0 cm radius carries a net charge of 20.0 uC. Assuming electrostatic conditions, find the electric field value at the following distances from the sphere's center: a) 25.0 cm (the surface of the sphere) b) 50.0 cm (outside the sphere, twice the distance from its center) c) 10.0 cm (inside the sphere) 5. Under normal atmospheric conditions, there exists a weak electric field near the earth's surface, pointing vertically downward, whose value is...
Consider the two small, equal-mass, charged spheres shown in the figure. The top sphere is suspended from the celling by a filament, and has a charge of 91 27.8 nC. The bottom sphere has a charge of 42--58.0 nC, and is directly below the top sphere. Assume d -2.00 cm and m -6.80 g. ร้า 92 (a) Calculate the tension (in N) in the filament. (b) If the filament can withstand a maximum tension of 0.180 N, what is the...
(a) A point charge produces an electric flux of +455 Nm2/C through a Gaussian sphere of radius 14.0 cm centered on the charge. i. Determine the sign and magnitude of the charge enclosed. Positive / Negative ii. ANS: What is the electric flux through a Gaussian sphere with a radius 26.5 cm centered on the same charge? (b) ANS: Two charges l_ = -4.0 uC and Q2 = +4.0 uC are located on the y-axis at Y1 = -5.0 cm...
4.90 x 104 N/C. An isolated charged conducting sphere has a radius R = 10.0 cm. At a distance of r 22.0 cm from the center f the sphere the electric field due to the sphere has a magnitude of E (a) What is its surface charge density (in uC/m)? HC/m (b) its capacitance (in pF)? What nF (c) What If? A larger sphere radius 30.0 cm now added as to be concentric with the first sphere, What the capacitance...
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