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In the figure, a wire loop of dimensions L = 43.1 cm and W = 26.6 cm lies in a magnetic field. What are the (a) magnitude 8 and (b) direction (clockwise or counterclockwise-or "none" if ε = 0) of the emf induced in the loop if B→ = (6.60×10−2 T/m)yk^? What are (c) 8 and (d) the direction if B→ = (6.13×10−2 T/s)tk^? What are (e)s and (f) the direction if B→ = (8.17×10−2 T/m⋅s)ytk^? What are (g)s and (h) the direction if B→ = (3.00×10−2 T/m⋅s)xtj^? What are (i)g and (j) the direction if B→−(5.00×10−2 T/m⋅s)yti^? (a) Number (b) (c) Number Units (d) (e) Number Units (f)

In the figure, a wire loop of dimensions L = 43.1 cm and W = 26.6 cm lies in a magnetic field. What are the (a) magnitude 8 and (b) direction (clockwise or counterclockwise-or "none" if ε = 0) of the emf induced in the loop if B→ = (6.60×10−2 T/m)yk^? What are (c) 8 and (d) the direction if B→ = (6.13×10−2 T/s)tk^? What are (e)s and (f) the direction if B→ = (8.17×10−2 T/m⋅s)ytk^? What are (g)s and (h) the direction if B→ = (3.00×10−2 T/m⋅s)xtj^? What are (i)g and (j) the direction if B→−(5.00×10−2 T/m⋅s)yti^? (a) Number (b) (c) Number Units (d) (e) Number Units (f)

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In the figure, a wire loop of dimensions L 43.1 c m and W 26.6 c m lies in a magnetic field. What are the (a) magnitude 8 and (b) direction (clockwise or counterclockwise-or "none" if ε 0 ) of the emf induced in the loop if B ( 6.60 × 10 2 T / m )y k ^ ? What are (c) 8 and (d) the direction if B ( 6.13 × 10 2 T / s ) t k ^ ? What are (e)s and (f) the direction if B = ( 8.17 × 10 2 T / m s ) y t k ^ ? What are (g)s and (h) the direction if B ( 3.00 × 10 2 T / m s ) x t ^ ? ^ ? What are ( i ) g and (j) the direction if B ( 5.00 × 10 2 T / m s ) y t t ^ ? (a) Number i (b) (c) Number i Units (d) (e) Number i Units (f)

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