All AP Physics 1 Resources
Example Questions
Example Question #1391 : Ap Physics 1
What is the power dissipated over a circuit consisting of an overall potential drop of 50V and a current of 0.2A?
Use the expression for power in a circuit:
Here, I is current and V is voltage, we can multiply the given current and potential drop in the circuit to find the power dissipated.
Example Question #11 : Circuit Power
Light bulbs give their wattage based on their power output when they are in parallel with a voltage source. For most, that comes from an outlet which typically had a voltage of .
What is the resistance of a 60W lightbulb if it's plugged into a socket with ?
We can determine the resistance of the 60W lightbulb by using the equation that relates power, voltage, and resistance:
Where is resistance, is voltage difference in the circuit, and is the power output.
We know that the voltage difference is and that the power output is , so plug in and solve for the resistance:
Example Question #161 : Electricity
The resistor in Angela's food processor is and has a voltage of across it. If her friend Sam uses it for straight to make his famous coleslaw and must reimburse her for the electricity use, how much does the power company charge per kilowatt hour?
Not enough information to answer
We can use the equation, Voltage = Current(Resistance) to determine:
so .
Because Electrical Power = Volts (Current), we can determine that the power Sam used was:
He used the food processor for 3 hours, so he used:
of electricity.
Since he had to pay , the company must charge
Example Question #1391 : Ap Physics 1
Suppose that a circuit connected to a battery generates of power across its resistor. What is the resistance of this circuit?
In this question, we're told that a battery connected circuit is generating a certain amount of power across its resistor, and we're being asked to determine the value of this circuit's resistance.
To start with, recall that the power generated by a circuit is proportional to the applied voltage as well as to the current flowing through the circuit. Written in equation form, we have:
From the above expression, we have values for the power and voltage terms, but we do not have a value for the current. However, we can make use of Ohm's law in combination with the above expression to solve for resistance.
By plugging in this expression for current into the above expression for power, we obtain:
Next, we can solve for the answer by rearranging and plugging in values.
Example Question #1391 : Ap Physics 1
What happens to current when circuit power is halved and resistance is kept constant?
Current is changed by a factor of
Current is changed by a factor of
Current is changed by a factor of
Current is changed by a factor of
Current is changed by a factor of
To solve this problem, we need an appropriate equation for power that relates current, power, and resistance.
This is given by
, where is power, is current, and is resistance.
We see that current and power are proportional via:
Since power is changed by a factor of , current changes by
This can be written alternatively as:
Example Question #14 : Circuit Power
A circuit shown below has an electromotive force (emf) of 10V. and . What is the power dissipated by ?
The power supply (in this case what is providing the emf) will have a power output depending on what is connected to it. A battery or lab power supply is generally designed to put out a constant voltage. The different circuit elements connected will alter the equivalent resistance of the entire circuit, and the power supply will provide a current and power needed to keep the potential (voltage) constant.
There are 3 equations for power dissipation for a resistor in a circuit. They first is:
Where the power dissipated is equal to the product of the current going through the resistor and the voltage drop across it. The second is:
The third is:
Notice that for each equation we need to know only 2 out of the 3 variables in Ohm's law. Let's chose the second equation with current and resistance. To find the current, notice that there is only a single loop in the circuit since both resistors are connected in series. This means that the total current coming from the power supply is equal to the current going through and the current going through . To find the current coming from the power supply let's find the total equivalent resistance of the circuit.
There are only two resistors connected in series. The equivalent resistance is just the sum of the series resistors:
The current from the power supply is found using Ohm's law:
The power dissipated by the second resistor is then:
Example Question #1393 : Ap Physics 1
If the current of a circuit is doubled, how is the power of a circuit changed? Assume the resistance of the circuit stays the same.
The power will double
The power will stay the same
The power will decrease by half
The power will be four times greater
The power will be four times greater
The power in a circuit is determined by the equation , where is the power of the circuit, is the current in the circuit, and is the equivalent resistance of the circuit.
Assuming the resistance stays the same, if the current is doubled, the power will be four times larger.
Expressed mathematically,
If
Example Question #1394 : Ap Physics 1
If the resistance of a circuit is doubled, how is the power of a circuit changed? Assume the current of the circuit stays the same.
The power will increase by double
The power will increase by triple
The power will decrease by half
The power will stay the same
The power will increase by double
The power in a circuit is determined by the equation , where is the power of the circuit, is the current in the circuit, and is the equivalent resistance of the circuit.
Assuming the current stays the same, if the resistance is doubled, the power will also double.
Expressed mathematically,
If
Example Question #14 : Circuit Power
What is the power of a circuit whose current is and equivalent resistance is ?
The power in a circuit is determined by the equation , where is the power of the circuit, is the current in the circuit, and is the equivalent resistance of the circuit.
In our example,
Example Question #1393 : Ap Physics 1
What is the power of a circuit whose current is and voltage is ?
The power in a circuit is determined by the equation , where is the power of the circuit, is the current in the circuit, and is the equivalent resistance of the circuit.
Since we are given current and voltage, we will also need Ohm's law, , where is the voltage, is the current in the circuit, and is the equivalent resistance of the circuit.
Solving Ohm's law for resistance gives us .
Substituting this form of Ohm's law into the power equation gives us
The power equation is now in a form that we can solve with the information we are given.
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