The induced voltage V versus time t for a coil that has 100 circular turns of wire with radius 50.5cm is given in the
following table.
Consider the magnetic field B(t) that passes through the coil. Assume that B(t) is perpendicular to the plane of the coil, and
induces the voltage V(t) presented in the data table.
First construct your own graph of V(t), and then select the graph that best represents B(t) based on your graph of V(t).
The induced voltage V versus time t for a coil that has 100 circular turns of wire with radius 50.5 cm is given in the
following table.
t (s)
V(V)
t (s)
V(V)
t (s)
V(V)
t (s)
V(V)
0
0
4
0
8
0
12
0
1
2
5
2
9
2
13
2
2
4
6
10
4
14
3
2
2
11
2
15
2
Consider the magnetic field B (t) that passes through the coil. Assume that B(t) is perpendicular to the plane of the coil, and
induces the voltage Vt presented in the data table.
First construct your own graph of V(t),and then select the graph that best represents B(t) based on your graph of V(t)
B(T) 0.20
B (T) 0.20
0.15
0.15
010