Projectile Motion Sail Boat Problem: Finding Speed and Direction After a Gust

AI Thread Summary
A sailboat traveling east at 5 m/s experiences a gust of wind that accelerates it at 0.8 m/s² at an angle of 40 degrees north of east. To find the boat's speed and direction after 6 seconds, the initial velocity must be combined with the acceleration components in both the eastward and northward directions. The correct approach involves calculating the components of the velocity and using the Pythagorean theorem to determine the resultant speed. The initial attempt mistakenly assumed the initial velocity in the direction of the gust was zero. Properly accounting for the angle and components will yield the final speed and direction of the boat.
Kster
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Homework Statement



A sailboat is traveling east at 5m/s. A sudden gust of wind gives the boat an acceleration 0.8m/s^2 (40 degrees north of east).

1. What is the boat's speed 6 seconds later when the gust subsides?

2. What is the boat's direction 6 seconds later when the gust subsides?


Homework Equations


v = v0 + at
A^2 + B^2 = C^2


The Attempt at a Solution


PhysicsProblem.jpg

I'm so stuck, please tell me what I did wrong.
 
Last edited:
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Hi Kster!

Your v_0 shouldn't be 0 (it would only be 0 if the wind was North or South).

Try again! :smile:
 
tiny-tim said:
Your v_0 shouldn't be 0 (it would only be 0 if the wind was North or South).

Thank you for replying, ok so I fixed it:

The Opposite Side:
Vo + at = V
(5m/s?) + (0.8 m/s^2 * 6 sec) = 9.8 m/s

My question is, is 9.8m/s my answer to the boat's speed 6 seconds later? or Do I have to use the Pythagorean Theorem to figure out the Hypoteneuse side and that is my answer?
 
Kster said:
(5m/s?) + (0.8 m/s^2 * 6 sec) = 9.8 m/s

No.

You must do everything in the same direction.

The acceleration is at 40º, so you must use the component of initial velocity along that direction too (using cos).

You then use Pythagoras to combine that result with the perpendicular component of initial velocity (which will be unaffected). :smile:
 
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