Projectile Velocity Analysis: Solving for Initial Vertical Velocity

AI Thread Summary
A soccer ball is projected at an angle, traveling a horizontal distance of 120 meters in 3 seconds, leading to a calculated horizontal velocity of 40 m/s. The initial vertical velocity was initially confusing, but the user realized it could be determined using the equation V2 = V1 + at, with gravity as the acceleration. By applying this formula, the initial vertical velocity was found to be 14.7 m/s upward. The discussion highlights the importance of understanding projectile motion equations in solving for various components of velocity. Overall, the user successfully solved the problem with assistance from the forum.
kayem
Messages
7
Reaction score
0

Homework Statement



A Soccer ball is projected at a certain angle (ϴ) above the horizon. It travels a horizontal distance of 1.2x102m in 3.0s.

a) Find the horizontal velocity
b) Find the initial vertical velocity (VV1).
c) Find the magnitude and direction of the initial velocity (VI)

Homework Equations



V = d/t

VH = VIcosϴ
VV1 = VIsinϴ

(Subscript H denotes the horizontal axis and Subscript V denotes the vertical axis)

The Attempt at a Solution



I know how to do Part a):

dH = v/t
dH = 120 / 30
dH = 40 m/s [Forward]

Part b confuses me. It seems to me like there is some information missing that causes me to not be able to do it but the teacher has told me that all the information that I need is there. I'll be able to get part C if somebody can help me out with b).

This is Grade 12 Physics and I haven't taken Calculus yet.Thanks to anybody who can help me out.The answers on the sheet are:
a) 40 m/s
b) 15 m/s
c) 43 m/s [20o to the horizon]

Homework Statement

Thanks in advance for any help that you can give me!
 
Physics news on Phys.org
Well, right after I posted it, the answer hit me so never mind.

V2 = V1 + at
0m/s = V1 + (-9.81m/s2)(1.5s)
V1 = 14.7 m/s [up]Thanks anyways!
 

Thread 'Family of lines that are at a distance of 5 from the origin'

I picked up this problem from the Schaum's series book titled "College Mathematics" by Ayres/Schmidt. It is a solved problem in the book. But what surprised me was that the solution to this problem was given in one line without any explanation. I could, therefore, not understand how the given one-line solution was reached. The one-line solution in the book says: The equation is ##x \cos{\omega} +y \sin{\omega} - 5 = 0##, ##\omega## being the parameter. From my side, the only thing I could...
View full post »

Similar threads

Projectile Motion Problem Involving Initial Velocity and Gravity Only
Replies
11
Views
1K
Find the height of a lamp based on the velocities of projectiles
Replies
40
Views
2K
Determine vertical velocity vector on sloped surface
Replies
9
Views
2K
Is this projectile motion situation possible?
Replies
6
Views
951
B Maximum velocity for projectile motion?
Replies
25
Views
4K
How do you find the initial velocity of a projectile given angle/distance?
Replies
3
Views
2K
Pumping power calculation of a vertical closed-loop system
Replies
4
Views
3K
Brachistochrone Problem w/ Initial Velocity
Replies
13
Views
4K
A ball is thrown w/initial speed vi at an angle 𝜃i with the horizontal
Replies
5
Views
1K
Projectile Motion: initial velocity problem
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top