Is the Final Velocity of a Projectile Always Greater Than the Initial Velocity?

AI Thread Summary
The discussion centers on the calculation of a projectile's final velocity after 2.5 seconds, launched at 48 m/s at an angle of 34 degrees below the horizontal. The initial calculations yielded a final velocity of 40 m/s at an angle of 3.3 degrees South of East, which prompted confusion regarding whether the final velocity should exceed the initial velocity due to gravitational acceleration. Participants pointed out the need for corrections in the calculations, specifically regarding the signs used for vertical components and the direction of the velocity. The final consensus suggested that the correct final velocity should be around 65 m/s at an angle of 52 degrees below the horizontal, highlighting discrepancies in angle calculations. The discussion emphasizes the importance of accurate vector addition and understanding projectile motion dynamics.
jonniechung
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Homework Statement



Hi, I am just wondering if someone can check if this is the correct answer for this question. Thanks in advance

1 . A projectile is launched with a speed of 48m/s at an angle of 34 degrees BELOW the horizontal. Calculate the speed an direction of the projectile 2.5 seconds after launch. Ignore friction.


Homework Equations



x/y component . addition of vectors. v=vo+at

The Attempt at a Solution




This is my answer : 40 m/s at 3.3 degress South of East

I find it surprising that the final velocity of the projectile is less then the initial (which is 48m/s).


Here it is:

48 sin 34 = -26.8m/s
48 cos 34 = 39.8

v = vo +at

v = -26.8 + (9.8)(2.5) <--- + acceleration because motion is towards center of Earth

v = -2.3

From here I used addition of vectors in x/y component

x = 39.8
y = -2.2

After 2.5 seconds

Answer: vf = 40 m/s at an angle of 3.3 degrees <---- tan theta


Shouldn't the vf of the projectile (after 2.5 seconds) be greater then the vo? Since it has a + 9.8 m/s ^ 2 .

Thank you
 
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v = -26.8 + (9.8)(2.5) <--- + acceleration because motion is towards center of Earth
You need a minus sign on the 9.8. The 26.8 and the 9.8*2.5 are both downward.
For the direction, you'll get an angle below horizontal - no "South of East"
 
Delphi51 said:
You need a minus sign on the 9.8. The 26.8 and the 9.8*2.5 are both downward.
For the direction, you'll get an angle below horizontal - no "South of East"

Thank you very much. The correct answer should be 65 m/s , 55 degrees below horizontal ?
 
I got 64 m/s and 51 degrees, but I used g = 9.81.
Might be worth checking the angle again - that's quite a difference.
Did you have 49.7 for the vertical velocity?
 
Nope, i got 51.4 m/s...

But... it was 52 degrees. I don't know why i put down 55 degrees lol

Thanks
 

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