Question

Determine the voltage across a 960 Ω resistor.

Answer 1

To determine the voltage across a 960 Ω resistor, one typically uses Ohm's Law; however, the question lacks sufficient information such as the current through the resistor or the total voltage supplied to accurately determine the voltage across it.

Step-by-step explanation:

The question is asking to determine the voltage across a 960 Ω resistor. To find the voltage across a resistor, you can use Ohm's Law, which states that Voltage (V) is equal to the Current (I) times the Resistance (R), expressed as V = IR. However, the current through the resistor has not been provided in the question. Without the current or the total voltage supplied, it is not possible to determine the voltage across the 960 Ω resistor. In a circuit where the resistor is the only component, the voltage across the resistor would be equal to the battery voltage. If there are other components, the voltage would need to be determined using either the series or parallel circuit rules along with Ohm's Law. In case the voltage across the battery is known and there are no other resistors in the circuit, then that would be the voltage across the resistor. If the circuit contains other resistors, additional information would be needed to solve for the voltage across the specific 960 Ω resistor.

Answer 2

To determine the voltage across a 960 Ω resistor, the current through the resistor or the total voltage in the circuit configuration must be known. This voltage can then be found using Ohm's Law. Without the necessary additional information, it is not possible to calculate the voltage across the resistor.

Step-by-step explanation:

To determine the voltage across a 960 Ω resistor, we need additional information such as the current flowing through the resistor or the total voltage in the circuit if the resistor is part of a series or parallel configuration. In this scenario, the voltage across the resistor can be found using Ohm's Law, which states that Voltage (V) is equal to the Current (I) times the Resistance (R), or V = IR.

For instance, if we know the current through the resistor is 1 ampere (A), the voltage across the resistor would be V = 1 A × 960 Ω = 960 volts. However, since no specific current or total circuit voltage is provided in the question, it is not possible to proceed with the calculation without that critical piece of information.

In a circuit with multiple resistors, such as a circuit with a parallel resistor combination or two resistors in series, the voltage across each resistor would depend on their arrangement in the circuit as well as other values like total voltage or current. For a series circuit, the voltage divides among the resistors proportionally to their resistances; for a parallel circuit, the voltage across each resistor is the same and equal to the total circuit voltage.