Question 3 A -9.80 nC charge of mass 4.50x10-6 kg is released from rest 1.90 mm...
Q1. The charges in the figure above both have a magnitude of
6.20 nC, and the distance d is 5.40 cm. What is the
magnitude of the electric field at the dot?
Q2.In the figure above, charge A is -2.35 nC, charge B is 4.70
nC, and charge C is 2.35 nC. If x = 4.00 cm and y
= 8.00 cm, what is the electric field at the dot?
Q3.A -1.00 nC charge of mass 1.10×10-6 kg is released...
A 1.0-μm-diameter oil droplet (density 900 kg/m3) is negatively charged with the addition of 27 extra electrons. It is released from rest 2.0 mm from a very wide plane of positive charge, after which it accelerates toward the plane and collides with a speed of 3.1 m/s . Part A What is the surface charge density of the plane?
A positive charge Q1 =+ 117 nC with mass M = 17 mg is released form rest at a distance r 1 = 6 mm from a fixed positive charge Q2=+ 311 nC, the speed of Q1 when it is at r2= 30 mm from Q2 is close to (in m/s): O 13.67 O 45.89 O 21.87 105.41 O 71.27
A particle with a charge of -1.5°C and a mass of 2.5x10-6 kg is released from rest at point A and accelerates toward point B, arriving there with a speed of 42 m/s. What is the potential difference VB -VA between A and B? a. +4.1 x * 103 V b. + 2.1 x 103 v C. 0.9 x 103 V d. +1.5 x 103 v e. - 4.1 103 v
A ball of mass m-298.3 kg and charge q 2.83 nC (10^-9 C) is attached via a string to an infinitely large charged plane. The string makes an angle 41.85 degrees with the plane, what is the surface charge density σ of the plane in C/m 2? Use the following constants: 8.854 10-12 C2/N-m2 єд 8-9.81 N/m m, q
A charged object of mass 3.2 g and charge 1.5 µC is released from rest in a uniform electric field and accelerates a rate of 3.9 m/s2. What is the magnitude of the electric field? give your answer in N/C 2- Three identical charges of 18.8 nC are placed on the corners of an equilateral triangle, each side having length 6.5 mm. What force (magnitude) is placed on any one of the vertex charges?
A ball of mass m=622.8 kg and charge q=8.49 nC (10^-9 C) is
attached via a string to an infinitely large charged plane. The
string makes an angle 31.70 degrees with the plane. What is the
surface charge density σσ of the plane in C/m^2?
Use the following constants:
ϵ0=8.854×10−12C2/N⋅m2ϵ0=8.854×10−12C2/N⋅m2
g=9.81N/mg=9.81N/m
m, q
m, q A ball of mass m-371.2 kg and charge q 5.34 nC (104-9 C) is attached via a string to an infinitely large charged plane. The string makes an angle 30.90 degrees with the plane. What is the surface charge density σ of the plane in C/m^2? Use the following constants: 0 8.854 x 10-12 C2/N-m2 9-9.81 N/m Your Answer: Answer
9 m, q A ball of mass m-423.3 kg and charge q-7.83 nC (10A-9 C) is attached via a string to an infinitely large charged plane. The string makes an angle 28.85 degrees with the plane. What is the surface charge density σ of the plane in C/m^2? Use the following constants: 0 8.854 x 10-12 C2N. m2 g 9.81 N/m Your Answer: Answer
A particle with a charge of 1.8 μС ad a mass of 2.6 x 10 6 kg is released rom rest at pont A and accelerates toward point B am ving here w th a speed of 54 m s Theo t/fonce acting on the particle is What is the potential difference V VA between A and B? If Vs is greater than VA, then give the answer as a positive number. If Vb is less than VA, then give...