All AP Physics C Electricity Resources
Example Questions
Example Question #1 : Electricity And Magnetism Exam
A hollow metal sphere with a diameter of 10cm has a net charge of distributed uniformly across its surface. What is the magnitude of the field a distance 2.0m from the center of the sphere?
Relevant equations:
(electric field of point charge)
Anywhere outside the metal sphere, the electric field is the same as it would be for a point charge of the same magnitude, located at the center of the sphere. So, calculate the electric field of a point charge given:
Plugging in gives:
Example Question #2 : Electricity And Magnetism Exam
Two infinite parallel conducting sheets each have positive charge density . What is the magnitude and direction of the electric field to the right of the right sheet?
, to the right
, to the left
, to the right
, to the right
, to the right
Relevant equations:
(field due to single infinite plane)
Electric field is additive; in other words, the total electric field from the two planes is the sum of their individual fields:
The direction of the electric field is away from positive source charges. Thus, to the right of these positively charged planes, the field points away to the right.
Example Question #3 : Electricity And Magnetism Exam
Four particles, each of charge , make up the four corners of a square with equal side lengths of . For the charge in the top left corner of the square, in what direction is the net force that it experiences due to its interactions with the other three particles?
Directly to the left
upwards of left
Directly to the right
downwards of right
upwards of left
The correct answer is 45 degrees upwards of left. Since all particles have charge , all forces will be repulsive (there will be no attracting forces). The particle in the top-right corner creates a repulsive force directly to the left, and the particle in the bottom-left corner creates a repulsive force directly upwards. These are equal in magnitude, since they are both at distance from the top left corner. The bottom-right corner also creates a repulsive force, but acts along the same direction as the vector sum of a leftwards and upwards force.
Example Question #3 : Electricity And Magnetism Exam
Consider a spherical capacitor made of two nested spheres. The smaller sphere has a radius of and a charge of , and lies within a larger sphere with radius and a charge of .
Which of the following equations accurately describes the capacitance of this spherical capacitor?
Due to symmetry, this scenario would not produce capacitance
To solve this problem, we will need to derive an equation.
We know that:
We can use Gauss's law to derive the electric field between the two circles yielding:
Doing our integration with respect to from to , we get:
We can plug this back into our equation for capacitance to get:
Example Question #1 : Using Coulomb's Law
We have a point charge of . Determine the electric field at a distance of away from that charge.
Coulomb's law for the electric field from point charges is , where we know the values of the following variables.
Using these values, we can solve for the electric field.
Example Question #2 : Using Coulomb's Law
Two positive point charges of and are place at a distance away from each other, as shown below. If a positive test charge, , is placed in between, at what distance away from will this test charge experience zero net force?
To find the location at which the test charge experience zero net force, write the net force equation as , where is the force on the test charge from , and is the force on the same test charge from . Using Coulomb's law, we can rewrite the force equation and set it equal to zero.
In this equation, the distance, , is how far away the test charge is from , while represents how far away the test charge is from . Now, we simplify and solve for .
Cross-multiply.
We can cancel and . We do not need to know these values in order to solve the question.
Now that we have isolated , we can plug in the values given in the question and solve.
Example Question #3 : Using Coulomb's Law
You are standing on top of a very large positively charged metal plate with a surface charge of .
Assuming that the plate is infinitely large and your mass is , how much charge does your body need to have in order for you to float?
Consider the forces that are acting on you. There is the downward (negative direction) force of gravity, . In order for you to float, there has to be an upward (positive direction) force, and that upward force is coming from the metal plate, . To show that you would float, the net force equation is written as , where is the charge on you.
For plates that are charged, know that .
Knowing this, the force equation becomes .
Solve for .
Now we can plug in our given values, and solve for the charge.
Example Question #4 : Electricity And Magnetism Exam
A point charge of exerts a force of on another charge with . How far apart are the two charges?
To find the distance between the two charges, use Coulomb's Law.
Since we want to find distance, , we solve for .
We know the values of the force and the two charges.
We can plug in these values and solve for the distance.
Example Question #1 : Using Coulomb's Law
What is the electric force between two charges, and , located apart?
The equation for finding the electric force between two charges is , where . Using this, we can rewrite the force equation.
Now, we can use the values given in the question to solve for the electric force between the two particles.
Example Question #1 : Electricity And Magnetism Exam
What is the magnitude of the electric field at a field point from a point charge of ?
The equation to find the strength of an electric field is .
We can use the given values to solve for the strength of the field at a distance of .
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