Answer Happy

Question 1 Start the "Faraday's Law Lab" simulation. Click and drag the magnet to position it as shown below. Click and select Filed lines. There is no battery in this simulation. The N pole of the bar magnet is closest to the loop (facing the loop). voltage Field In N S Faraday's Law PHET= Move the magnet at a steady rate toward the loop (coils) until the magnet is completely inside the coils, and then stop. What does the voltmeter show as the magnet moves toward the loops? O the voltmeter shows a negative voltage O the voltmeter shows a positive voltage O nothing (zero voltage) 2 pts
Question 2 What does the voltmeter show when the magnet is stationary inside the loops? O the voltmeter shows a negative voltage O the voltmeter shows a positive voltage O nothing (zero voltage) 2 pts
Question 3 Now steadily continue to move the magnet to the left, away from/out of the loops. What does the voltmeter show when the magnet moves away from the loops? O nothing (zero voltage) O the voltmeter shows a negative voltage O the voltmeter shows a positive voltage 2 pts
Question 4 As the bar magnet moves toward or away from the loops, what changes? O the direction of the magnetic field lines. O the magnetic field of the magneti O the amount of magnetic field passing through the loops Question 5 When the bar magnet approaches the loops, the magnetic flux through the loops O increases O stays the same O decreases 2 pts 2 pts
Question 6 When the bar magnet is stationary inside the loops, the magnetic flux through the loops Ⓒh O decrease Question 7 When the bar magnet moves out of the loop, the magnetic flux through the loops Om Question 8: What creates the voltage (electric current in the loops? the magic held of the bar magt 2 pts 2 pts 2 pts
D D Question 9 Imagine that you are "riding on the magnet. What is the direction of the induced current in the loops when the N pole of the magnet moves toward the loops? Ⓒlockw Othere is no cuent Oclockwise Question 10 What is the direction of the induced magnetic field at the center of the loops when the bar magnet moves toward the loops the N pole of the bar magnet faces the loop? Othere is no induced magerfeld Question 11 2 pts 2 pts O clockwe 2 pts What is the direction of the induced current in the loops when the 5 pole of the magnet moves away from the loops? the 5 pole of the bar magnet faces the loops after the magnet passed through the loopd
cements on 1& Policies Video D Question 12 D D What is the direction of the induced magnetic field at the center of the loops when the bar magnet moves away from the loops (the 5 pole of the bir magnet faces the loop? the same Othere is no duced magnetic f Question 13 as the direction of the magnetic held created by the m What law determines the direction of the induced current in a loop? Ⓒ ⒸA Ons w Question 14 2pts Which one of the scenarios described below leads to an induced current in a loop? More than one answer is connect. 1 pts 3pts
ents Policies dea D Question 15 Two colls are placed in a magnetic field as shown in the first case, magnetic field is increasing and in the second case magnetic field is decreasing. Find the direction of the induced current in the cols Select the correct answer from the choices provided below. Magnetic field increasing Magnetic field decreasing OCCW and CW OCW and CW OCW and CCW ⒸCCW and CCW 8 18 8 10 8 2 pts 8