What happens to the current in a wire when you increase resistance?

What happens to the current in a wire when you increase resistance?

The relationship between resistance and the area of the cross section of a wire is inversely proportional . When resistance is increased in a circuit , for example by adding more electrical components , the current decreases as a result.

What is the relationship between current resistance and voltage difference?

Ohm’s law defines the relationship between the voltage, current, and resistance in an electric circuit: i = v/r. The current is directly proportional to the voltage and inversely proportional to the resistance.

What is relation between current and resistance?

The relationship between current, voltage and resistance is expressed by Ohm’s Law. This states that the current flowing in a circuit is directly proportional to the applied voltage and inversely proportional to the resistance of the circuit, provided the temperature remains constant.

How is resistance and current related?

What happens to voltage if resistance increases?

This means that if the voltage is high the current is high, and if the voltage is low the current is low. Likewise, if we increase the resistance, the current goes down for a given voltage and if we decrease the resistance the current goes up.

Why resistance decreases with increase in area?

Adding more wires in parallel decreases the resistance of that circuit path. So, bigger cross sectional area = more wires in parallel = lower resistance. And hence the inverse proportionality relation is responsible for increase in area, decrease in resistance property.

What factor does not affect the resistance?

The resistance does not depend on the weight of the wire. Therefore, the correct option is weight.

What are the 3 factors that affect resistance?

There are several factors that affect the resistance of a conductor;

• material, eg copper, has lower resistance than steel.
• length – longer wires have greater resistance.
• thickness – smaller diameter wires have greater resistance.
• temperature – heating a wire increases its resistance.

What is resistance and what factors affect it?

Resistance is the property of the material that restricts the flow of electrons. There are four factors affecting resistance which are Temperature, Length of wire, Area of the cross-section of the wire, and nature of the material.

What factors does resistance depend on?

The resistance of a conductor depends on the cross sectional area of the conductor, the length of the conductor, and its resistivity. It is important to note that electrical conductivity and resistivity are inversely proportional, meaning that the more conductive something is the less resistive it is.

Does temperature affect resistance?

Heating a metal conductor makes it more difficult for electricity to flow through it. These collisions cause resistance and generate heat. Heating the metal conductor causes atoms to vibrate more, which in turn makes it more difficult for the electrons to flow, increasing resistance.

What happens to resistance when length and diameter is doubled?

If we double its length and diameter, what is its resistance in terms of R’? R’ = 21 R. Thus if we double the length and diameter of the wire, the resistance becomes half than that of initial resistance.