Vector Problem: Avg Acc Components

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SUMMARY

The discussion focuses on calculating the average acceleration of a particle over a 2-second interval, transitioning from an initial velocity of 4.40 m/s at 35.0 degrees above the horizontal to a final velocity of 6.35 m/s at 58.0 degrees below the horizontal. The x-component of the average acceleration was determined to be 6.969 m/s², while the y-component was calculated as -2.86 m/s². The calculations involved resolving the velocities into their respective components using trigonometric functions and averaging them over the time interval.

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Homework Statement



Initially, a particle is moving at 4.40 m/s at an angle of 35.0 degrees above the horizontal. Two seconds later, its velocity is 6.35 m/s at an angle of 58.0 degrees below the horizontal. What was the particle's average acceleration during these 2.00 seconds in terms of the components of the average acceleration?

2. Homework Equations [/

[]3. The Attempt at a Solution

Ok, I found the x component of the first given vector to be 4.40 x cos(35)=3.604. Then i found the y component 4.40 x sin(35)=2.5237. I then found the components of the second given vector to be 6.35 x cos(-58)= 3.3649 for the x component and for the y component I found 6.35 x sin(-58) = -5.285.

I added 3.604 and 3.3649 and divided that by the time=2 seconds to get the acceleration x vector of 6.969. Then i added 2.5237 and -5.385 and divided that sum by 2 to get -2.86 as my acceleration y vector.
 
Last edited:
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Hi New-Blu-Blood, welcome to PF.
Show your calculation.Then we will find out where you went wrong?
 

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