A 3.6 gg aluminum foil ball with a charge of +4.1×10−9 CC is suspended on a string in a uniform horizontal E⃗ E→ field. The string deviates to the right and makes an angle of 30∘∘ with the vertical. |
Part B Determine the magnitude of the electric field. |
The angle made by the string in the electric field with the vertical is
This is the answer.
A 3.6 gg aluminum foil ball with a charge of +4.1×10−9 CC is suspended on a...
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.
Please show all work and steps! 5. A tiny charged ball of mass m and charge -q is suspended by a massless string from the ceiling in a region of uniform horizontal electric field E. When it is in equilibrium, the string makes an angle 0 with the vertical. What is the magnitude of E in terms of the other variables (and known constants), and its direction AU Physics PHYS 1600/1610 CC-BY-SA Kolarkar
A small 16.8 g plastic ball is suspended by a 20 cm long string in a 103 N/C uniform electric field directed at 45o with respect to the horizontal. If the ball is in equilibrium when the string makes a 20.0° angle with the vertical, what is the net charge on the ball?
A piece of aluminum foil of mass 5.60 × 10-2 kg is suspended by a string in an electric field directed vertically upward. If the charge on the foil is 3.00 μC, find the strength of the field that will reduce the tension in the string to zero N/C
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 small 2.05 g plastic ball that has a charge q of 1.55 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 0, what is the electric field strength E? E = 2.45 x10–3 NICO
Asmall 8.00-g plastic ball that has a charge g of 1.80 C is suspended by a string that has a length Lof 1.00 m in a uniform electric field, as shown in the figure below. 1) If the ball is in equilibrium when the string makes a 9.80 angle with the vertical as indicated by 0, what is the electric field strength? (Express your answer to three significant figures.) mN/C Submit
A small 1.00-g plastic ball that has a charge q of 1.10 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 below. 1) If the ball is in equilibrium when the string makes a 9.80. angle with the vertical as indicated by , what is the electric field strength? (Express your answer to three significant figures.) mN/C Submit
A small 12.6 g plastic ball is tied to a very light 28.4 cm string that is attached to the vertical wall of a room. (See the figure (Figure 1).) A uniform horizontal electric field exists in this room. When the ball has been given an excess charge of -1.10μC , you observe that it remains suspended, with the string making an angle of 17.4° with the wall. Part A Find the magnitude of the electric field in the room. Part B Find the...
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?