Projectile Motion Problem -Diving off cliff

In summary, the problem involves a swimmer with a weight of 510N diving off a cliff with a running horizontal leap. Using a chart to track the x and y motions, the initial velocity needed to make it by the cliff is calculated using the formulas ΔY = 1/2at^2 and ΔX = voxt. The final answer is 1.30m/s.
  • #1
Chandasouk
165
0

Homework Statement


A daring 510N swimmer dives off a cliff with a running horizontal leap, as shown in the figure .

YF-03-39.jpg


I'm not sure how to begin, so I made a chart of the X and Y motions

X Motion Y Motion
--------- -----------------

VoX = ? Voy= 0m/s

/\X = 1.75m /\Y = 9.00m

a= -9.8m/s^2
t=?



I have no idea what to do with the 510N they give me or even if it is necessary
 
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  • #2
I like your x and y motion chart - good start!
You will need to use some formulas to work out the initial velocity necessary to make it by the cliff. Ask yourself what kind of motion you have in the x direction and write down the appropriate equation(s). Same for the y direction.

Hot tip: you can make a perfect Δ here by copying one from https://www.physicsforums.com/blog.php?b=347
and pasting here.
 
Last edited by a moderator:
  • #3
Hmm, I think I found the time.

ΔY = 1/2at^2

9.00m = 1/2(9.8m/s^2)t^2

9.00m
------ = t^2
4.9m/s^2

t=1.35 seconds


Knowing this, I could

ΔX = voxt

1.75m = vox(1.35sec)

vox = 1.30m/s ?
 
  • #4
Chandasouk said:
Hmm, I think I found the time.

ΔY = 1/2at^2

9.00m = 1/2(9.8m/s^2)t^2

9.00m
------ = t^2
4.9m/s^2

t=1.35 seconds


Knowing this, I could

ΔX = voxt

1.75m = vox(1.35sec)

vox = 1.30m/s ?
Looks good :smile:
 

Related to Projectile Motion Problem -Diving off cliff

1. What is projectile motion?

Projectile motion is the motion of an object through the air or space under the influence of gravity. It follows a curved path known as a parabola.

2. How is projectile motion used in diving off a cliff?

In diving off a cliff, projectile motion is used to calculate the trajectory and landing point of the diver based on their initial velocity and angle of launch.

3. What factors affect projectile motion in diving?

The factors that affect projectile motion in diving include the initial velocity, the angle of launch, the height of the cliff, and air resistance.

4. How can I calculate the maximum height reached by a diver during projectile motion?

To calculate the maximum height, you can use the formula h = (v^2 * sin^2(theta)) / (2 * g), where v is the initial velocity, theta is the angle of launch, and g is the acceleration due to gravity.

5. Can the same principles of projectile motion be applied to other sports or activities?

Yes, projectile motion is a fundamental concept in physics and can be applied to various sports and activities such as baseball, football, and even launching a rocket into space.

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