Component Acceleration/Velocity

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A sailboat initially traveling east at 4.10 m/s experiences an acceleration of 0.500 m/s² at an angle of 40.0° north of east due to a gust of wind. To find the boat's speed after 5.90 seconds, the velocity vector can be calculated using the equation v(t) = v₀ + a·t, incorporating both the initial velocity and the components of acceleration. By substituting the time into the equation, the resulting velocity vector can be determined, from which the speed (magnitude) can be derived. The discussion emphasizes the importance of breaking down the acceleration into its vector components for accurate calculations. This approach effectively resolves the problem of determining the boat's speed after the gust subsides.
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The problem is stated as follows:

A sailboat is traveling east at 4.10 m/s. A sudden gust of wind gives the boat an acceleration a=(0.500 m/s2,40.0° north of east). What is the boat's speed 5.90 s later when the gust subsides?

I've tried breaking it into component vectors, but no luck. Suggestions?
 
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mathewings said:
The problem is stated as follows:

A sailboat is traveling east at 4.10 m/s. A sudden gust of wind gives the boat an acceleration a=(0.500 m/s2,40.0° north of east). What is the boat's speed 5.90 s later when the gust subsides?

I've tried breaking it into component vectors, but no luck. Suggestions?

It's easier to write down the whole vectors. So, \vec{v}(t) = \vec{v}_{0}+\vec{a}\cdot t = 4.1 \vec{i} + (0.5\cos(40) \vec{i} + 0.5\sin(40) \vec{j})t. Plug in t = 5.9 and you'll have your velocity vector. (The speed is it's magnitude.)
 
what are the equations you are using?
 
I totally understand your formula; I made the proper substitutions and it works. Thanks.
 

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