Почему вольтметр подключается параллельно в цепь?Какое сопротивление должно быть у идеального

Why is a voltmeter connected in parallel in a circuit?

When measuring voltage in a circuit, a voltmeter is connected in parallel to the component or portion of the circuit where the voltage is to be measured. This is because connecting the voltmeter in parallel ensures that it measures the voltage across the component, without affecting the current or the resistance of the circuit. Connecting a voltmeter in series would disrupt the flow of current and affect the accuracy of the voltage measurement.

Ideal resistance of a voltmeter

An ideal voltmeter should have infinite resistance. This is because an ideal voltmeter would draw zero current from the circuit being measured, ensuring that it does not affect the voltage being measured. In practical terms, a voltmeter with very high resistance is used to minimize the impact on the circuit being measured. The higher the resistance of the voltmeter, the less it will affect the circuit's voltage.

Influence of a voltmeter on circuit parameters

When an actual voltmeter is connected to a circuit, it introduces some resistance into the circuit due to its internal resistance. This can affect the accuracy of the voltage measurement, especially in circuits with low resistance. The presence of the voltmeter alters the total resistance of the circuit and can cause a small voltage drop across the voltmeter itself This is why it's important to use a voltmeter with high resistance to minimize this effect.

In summary, a voltmeter is connected in parallel in a circuit to measure the voltage across a component without affecting the circuit's current. An ideal voltmeter should have infinite resistance to minimize its impact on the circuit being measured. However, in practical terms, a voltmeter with very high resistance is used. The presence of a voltmeter in a circuit can alter the total resistance and cause a small voltage drop across the voltmeter itself.

0 0