What is the effect of increasing the area of a loop in a uniform magnetic field on the magnetic flux?
Practice Questions
1 question
Q1
What is the effect of increasing the area of a loop in a uniform magnetic field on the magnetic flux?
Magnetic flux increases
Magnetic flux decreases
Magnetic flux remains constant
Magnetic flux becomes zero
Increasing the area of the loop in a uniform magnetic field increases the magnetic flux, as magnetic flux is given by the product of the magnetic field strength and the area.
Questions & Step-by-step Solutions
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Q
Q: What is the effect of increasing the area of a loop in a uniform magnetic field on the magnetic flux?
Solution: Increasing the area of the loop in a uniform magnetic field increases the magnetic flux, as magnetic flux is given by the product of the magnetic field strength and the area.
Steps: 5
Step 1: Understand what magnetic flux is. Magnetic flux is a measure of how much magnetic field passes through a certain area.
Step 2: Know the formula for magnetic flux. The formula is: Magnetic Flux (Φ) = Magnetic Field Strength (B) × Area (A).
Step 3: Identify the components in the formula. Here, B is the strength of the magnetic field, and A is the area of the loop.
Step 4: Consider what happens when you increase the area (A) of the loop. If you make the area larger while keeping the magnetic field strength (B) the same, you are multiplying a larger number by the same B.
Step 5: Conclude that increasing the area results in a larger product. Therefore, the magnetic flux (Φ) increases when the area of the loop increases in a uniform magnetic field.
