The radius of the circular loop shown in the figure increases as a function of time according to the expression r = a (1+). The loop is placed in a X X X x X X Bin X. uniform magnetic field directed inward from the plane of the page. The magnetic field then begins decreasing from time t=0 to t=T according to X X X. B(t) = B. (1--), where Bo is a constant. Find the X X X X X X X X 27 magnetic flux through the loop when t:
The radius of the circular loop shown in the figure increases as a function of time according to the expression r = a (1+). The loop is placed in a X X X x X X Bin X. uniform magnetic field directed inward from the plane of the page. The magnetic field then begins decreasing from time t=0 to t=T according to X X X. B(t) = B. (1--), where Bo is a constant. Find the X X X X X X X X 27 magnetic flux through the loop when t:
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Transcribed Image Text:The radius of the circular loop shown in the figure
increases as a function of time according to the
= a (1+). The loop is placed in a
X X X x X
Bin
x X X
uniform magnetic field directed inward from the
plane of the page. The magnetic field then begins
decreasing from time t-0 to t-T according to
X X X X
B(t) = B. (1-÷), where Bo is a constant. Find the
X X X X X X X
27
magnetic flux through the loop when t =
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