As shown in the figure, a ball with a mass of 0.990 g and
positive charge of q=40.8 μC is suspended on a string of negligible
mass in a uniform electric field.

We observe that the ball hangs at an angle of θ=23.0o
from the vertical. What is the magnitude of the electric
field?
(in N/C)
| A: 5.712×101 | B: 7.597×101 | C: 1.010×102 | D: 1.344×102 | E: 1.787×102 | F: 2.377×102 | G: 3.162×102 | H: 4.205×102 |
As shown in the figure, a ball with a mass of 0.990 g and positive charge...
As shown in the figure, a ball with a mass of 0.870 g and
positive charge of q=32.3 μC is suspended on a string of negligible
mass in a uniform electric field.
We observe that the ball hangs at an angle of θ=24.0o
from the vertical. What is the magnitude of the electric
field?
(in N/C)
A: 9.412×101
B: 1.176×102
C: 1.471×102
D: 1.838×102
E: 2.298×102
F: 2.872×102
G: 3.590×102
H: 4.488×102
rm Uniform E-field
As shown in the figure, a ball with a mass of 0.450 g and positive charge of q=33.0 uc is suspended on a string of negligible mass in a uniform electric field Tm Uniform E-field we observe that the ball hangs at an angle of θ= 20.0° from the vertical, what is the magnitude of the electric field? Submit Answer Tries 0/10
Find the magnitude of the electric field
Uniform E-field As shown in the figure above, a ball of mass 0.900 g and positive charge q 39.0C is saspended on a string of negligible mass in a uniform electrie field. We observe that the ball hangs at an angle of the vertical. What is the magnitude of the electric fleld? 15.0 from Submt Al
A small 12.6 g plastic ball is tied to a very light 28.6 cm string that is attached to vertical wall of room (see figure). A uniform horizontal electric field exists in this room. When the ball has been given an excess charge of - 1.33 μC, you observe that it remains suspended, with the string making an angle of 17.4° with the wall. Find the magnitude of the electric field in the room.
In the figure below, a small charge with a mass of 2.00g and a
charge of −0.820μC is attached to the end of a massless string. The
charge hangs at an angle of 30.0° when a uniform electric field, E,
is applied in the horizontal direction. Calculate the magnitude of the
electric field.
In the figure below, a small charge with a mass of 2.00 g and a charge of-0.820 μC is attached to the end of a massless string....
An isolated charged sphere with a mass of 15.0 g and charge 18 μC is suspended on a string in a uniform horizontal electric field of strength 1050 N/C directed to the right. Find the angle made by the string with respect to the vertical
A small 1.45 g plastic ball that has a charge q of 1.75 C is suspended by a string that has a length L of 1.00 m in a uniform electric field, as shown in the figure. If the ball is in equilibrium when the string makes a 9.80 angle with the vertical as indicated by θ, what is the electric field strength E?
Chapter 158... Bonus Question : Force on a Point.. 65 A thle triomponent of ti0 dlect rt fest at the rigin loce fx10 N acts on the charge as shown in the figure. What is the x-component of the electric field at the origin? (Note: 1 V/m 1 N/C) (in V/m) [ A: 6.794, B: 7.678 c: 8.676/ D: 9.8031E : 1.108x10 F: 1.252x10 G: 1.415x10H: 1.598x101 Submit Answer Tries O/20 TimersEvaluate PrintInfo As shown in the fiqure, a ball...
Problem 9 A small plastic ball of mass m = 2.50 g is suspended by a string of length L = 22.5 cm in a uniform electric field, as shown in the figure below. If the ball is in equilibrium when the string makes a 2 = 13.5° angle with the vertical as indicated, what is the net charge on the ball? E = 1.00 x 10% N/C L m
A 3.7 g aluminum foil ball with a charge of +4.9×10−9 C is suspended on a string in a uniform horizontal E⃗ field. The string deviates to the right and makes an angle of 30∘ with the vertical. a. Determine the magnitude of the electric field.