Finding theta when moment is max

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To achieve maximum moment, the 4 kN force must be perpendicular to the 20 m distance. The application of the sine rule was incorrect due to mixing units of force and distance. The correct angle, theta, should be recalculated, considering the pivot point's height of 1.5 m above the ground. The initial calculation yielded an angle of 9.2 degrees, while the correct answer is 33.6 degrees. The maximum moment calculated was 80 Nm, but the approach needs adjustment for accurate results.
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Homework Statement


to achieve max moment , the 4 kN must br perpendiclar to 20m , right ? so, i formed a cloased triangle and use sine rule to find the
tetha , 25/ sin90 = 4/sin tetha , i gt my tetha = 9.2 degree , but the ans given is 33.6degree
i gt max moment = 80Nm

Homework Equations

The Attempt at a Solution

 

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goldfish9776 said:

Homework Statement


to achieve max moment , the 4 kN must br perpendiclar to 20m , right ? so, i formed a cloased triangle and use sine rule to find the
tetha , 25/ sin90 = 4/sin tetha , i gt my tetha = 9.2 degree , but the ans given is 33.6degree
i gt max moment = 80Nm

Homework Equations

The Attempt at a Solution

You've applied the law of sines incorrectly to this problem. You can't measure the length of one side of a triangle in units of Newtons, and another in units of meters.
 
And don't forget that the pivot point is shown as 1.5 m above the ground.
 
Thread 'Variable mass system : water sprayed into a moving container'

Thread 'Variable mass system : water sprayed into a moving container'

Starting with the mass considerations #m(t)# is mass of water #M_{c}# mass of container and #M(t)# mass of total system $$M(t) = M_{C} + m(t)$$ $$\Rightarrow \frac{dM(t)}{dt} = \frac{dm(t)}{dt}$$ $$P_i = Mv + u \, dm$$ $$P_f = (M + dm)(v + dv)$$ $$\Delta P = M \, dv + (v - u) \, dm$$ $$F = \frac{dP}{dt} = M \frac{dv}{dt} + (v - u) \frac{dm}{dt}$$ $$F = u \frac{dm}{dt} = \rho A u^2$$ from conservation of momentum , the cannon recoils with the same force which it applies. $$\quad \frac{dm}{dt}...
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