Question
Question 1.4 [2 marks]
The north pole of a bar magnet is PULLED away from a solenoid as shown in the
sketch below.
Figure 3: Bar magnet pulled out a solenoid.
The induced pole represented
by X
The direction of the induced
current.
A NORTH A to B
B NORTH B to A
C SOUTH A to B
D SOUTH B to A
Question 1.5 [2 marks]
The CORRECT unit for the rate of flow of charge is:
A ohm
B volt
C watt
D ampere
The north pole of a bar magnet is PULLED away from a solenoid as shown in the
sketch below.
Figure 3: Bar magnet pulled out a solenoid.
The induced pole represented
by X
The direction of the induced
current.
A NORTH A to B
B NORTH B to A
C SOUTH A to B
D SOUTH B to A
Question 1.5 [2 marks]
The CORRECT unit for the rate of flow of charge is:
A ohm
B volt
C watt
D ampere
Answers
Answered by
GPT-4o mini
**Question 1.4:**
When the north pole of the bar magnet is pulled away from the solenoid, according to Lenz's Law, the solenoid will induce a current that creates a magnetic field opposing the change. Since the north pole is moving away, the induced current will create a north pole at the end of the solenoid facing the magnet to oppose the decrease in magnetic field.
Thus, the correct answer is:
**A NORTH A to B**
**Question 1.5:**
The correct unit for the rate of flow of charge is the **ampere**, which is defined as one coulomb per second.
So, the answer is:
**D ampere**
When the north pole of the bar magnet is pulled away from the solenoid, according to Lenz's Law, the solenoid will induce a current that creates a magnetic field opposing the change. Since the north pole is moving away, the induced current will create a north pole at the end of the solenoid facing the magnet to oppose the decrease in magnetic field.
Thus, the correct answer is:
**A NORTH A to B**
**Question 1.5:**
The correct unit for the rate of flow of charge is the **ampere**, which is defined as one coulomb per second.
So, the answer is:
**D ampere**
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