Questions LLC
Login
or
Sign Up
Ask a New Question
Physics
Electricity and Magnetism
Current
if 500 microcoulombs of charge pass within 5 ms through the circuit shown, what is the current?
1 answer
well, 1C/s = 1 amp, so you have
500*10^-6C / 5*10^-3s = 100*10^-3 C/s = 100mA
You can
ask a new question
or
answer this question
.
Similar Questions
Three charges are at the corners of a rectangle with side L1 = 0.04 m and L2 = 0.015 m as shown. If q1 = 1.3 microCoulombs, q2 =
Top answer:
To find the magnitude of the force on q2, we need to calculate the electrostatic force between q2
Read more.
2 small conducting spheres are identical except that sphere x has a charge of -10 microcoulombs and sphere y has a charge of +6
Top answer:
To find the charge on each sphere, we need to understand how charges behave when brought into
Read more.
four charged particles are placed so that each particle is at the corner of a square. the sides of the square are 15 cm. the
Top answer:
To calculate the net electric force on each charge, we need to consider the forces exerted by the
Read more.
Two identical spheres, A and B, carry charges of +6 microcoulombs and -2 microcoulombs. If these spheres touch, what will be the
Top answer:
+2 microcoulombs
Read more.
There is a +4 microCoulombs (ìC) charge at each of 3 corners of a square (each side 58. mm long). What is the force on +10
Top answer:
Let the charge q1 be in left bottom corner, then clockwise q2 and q3, and q4 =10microC in the
Read more.
Consider an insulating sphere with 10 microCoulombs of charge uniformly distributed through its volume. The sphere is surrounded
Top answer:
To find the magnitude of the electric field at point A, we can use Gauss's Law. Gauss's Law states
Read more.
Consider an insulating sphere with 10 microCoulombs of charge uniformly distributed through its volume. The sphere is surrounded
Top answer:
To determine the charge on the outer surface of the conducting shell, we need to consider the total
Read more.
Consider an insulating sphere with 10 microCoulombs of charge uniformly distributed through its volume. The sphere is surrounded
Top answer:
3.6*10^7 N/C
Read more.
Consider an insulating sphere with 10 microCoulombs of charge uniformly distributed through its volume. The sphere is surrounded
Top answer:
b. Gauss law: the E in any region is due to the enclosed charge, so E at any point is due solely to
Read more.
How many paths through which charge can flow would be shown in a circuit diagram of a series circuit?
a none b one c unlimited
Top answer:
b) one
Read more.
Related Questions
How many electrons pass a given point in the circuit in 17 minutes? The fundamental charge is 1.602•10^-19. And the current is
Which circuit will have the greatest electric current?
(1 point) Responses circuit 3 circuit 3 circuit 1 circuit 1 circuit 2
An AC voltage of the form Δv = (100 V) sin(1000t) is applied to a series RLC circuit. Assume the resistance is 400 , the
Which statement best defines the resistance of an electric circuit?(1 point)
Responses It limits the amount of electrical energy
Which statement best defines the resistance of an electric circuit?(1 point)
Responses It limits the amount of electrical energy
If your body develops a charge of -18 (microcoulombs), how many excess electrons has it acquired?
"Two small spheres are located 0.50m apart. Both have the same charge on them. If the repulsive force is 5.0N, what charge is on
Compute the electrical force between the following charges and state whether it is attractive or repulsive. Q1 = 3 microcoulombs
A 3.5-A current is maintained in a simple circuit with a total resistance of 1500 W. What net
charge passes through any point in
Consider the circuit shown in the figure below. (Assume R1 = 12.0 Ω and R2 = 6.00 Ω.)
Read this for the figure - A rectangular