Knowing that F = 370 N and 0 = 15°, determine the tension in the spring and reactions at A if the crank is in eqilibrium. The spring is unstretched when 0 = 0 and remains horizontal regardless of the angle 0. Fis perpendicular to arm AD. Enter the magnitude of the tension below in N to nearest whole N. (Note in this problem you can treat the spring as an unknown force and can use equilibrium to find the spring tension nor the reactions at A.) B 300 mm 150° 400 mm. D In your written solution, also determine the required spring constant k for the equilibrium position described above.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Knowing that F = 370 N and 0 = 15°, determine the tension in the spring
and reactions at A if the crank is in eqilibrium. The spring is unstretched
when = 0 and remains horizontal regardless of the angle 0. F is
perpendicular to arm AD. Enter the magnitude of the tension below in N
to nearest whole N.
(Note in this problem you can treat the spring as an unknown force and
can use equilibrium to find the spring tension nor the reactions at A.)
B
300 mm
150°
400 mm.
In your written solution, also determine the required spring constant k for
the equilibrium position described above.
Transcribed Image Text:Knowing that F = 370 N and 0 = 15°, determine the tension in the spring and reactions at A if the crank is in eqilibrium. The spring is unstretched when = 0 and remains horizontal regardless of the angle 0. F is perpendicular to arm AD. Enter the magnitude of the tension below in N to nearest whole N. (Note in this problem you can treat the spring as an unknown force and can use equilibrium to find the spring tension nor the reactions at A.) B 300 mm 150° 400 mm. In your written solution, also determine the required spring constant k for the equilibrium position described above.
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