Basketball Vector/Kinematics Question

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Homework Help Overview

The problem involves a basketball shot, where the ball is released from a height of 2.10 meters and must reach a basket at 2.60 meters, with a horizontal distance of 11.00 meters. The shot is made at a 38-degree angle, and the task is to determine the range of initial speeds required for the shot to be successful within a specified horizontal accuracy.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the projectile motion of the basketball and attempt to decompose the motion into horizontal and vertical components. There are questions about the correct approach to find the initial velocity, with some expressing uncertainty about missing variables and the use of equations.

Discussion Status

Some participants have provided guidance on the nature of projectile motion and suggested using equations for both horizontal and vertical displacements. There is an acknowledgment of the need to resolve the velocity into components and to consider time in the calculations. Multiple interpretations of the problem are being explored, with no explicit consensus yet.

Contextual Notes

Participants are working under the constraints of not having the time variable and are questioning the assumptions made about final velocities in their calculations.

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Homework Statement



A basketball leaves a player's hands at a height of 2.10metres above the floor. The basket is 2.60metres above the floor. The player likes to shoot the ball at a 38 degree angle. If the shot is made from a horizontal distance of 11.00metres and must be accurate to +/-0.22metres (horizontally), what is the range of initial speeds allowed to make the basket?

I really have no idea how to do this... :(
 
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You must show what you know and think about the problem. What kind of motion does the basketball perform? ehild
 
Parabolic? I tried to separate it into two (horizontal and vertical) components so that I could then work out the actual velocity. And then tried to work each of them out individually. I don't even know if that's the right way to go about doing it because it feels like I am missing one of the variables. But anyway, I tried to work out the vertical velocity first but was missing a variable for each of the available equations, so in the end I just tried subbing in zero for final velocity and went from there but the answers were all wrong.

I'd just like some guidance...
 
That is a good start. The basketball moves like a projectile, along a parabola and its motion can be decomposed into horizontal and vertical ones. And you know two points of that parabola: Make a picture and show where they are. Show your calculations.
The final velocity will not be zero.

ehild
 
I know that it is 2.1 metres from the ground when it starts and the end-point is 2.6 metres from the ground and 11 metres away from the start.

Therefore: X0 = 0m, X1 = 11m, Y0 = 2.1m, Y = 2.6m

The ball is being released at a 38 degree angle, my thought process was to get either one of the vector components somehow by playing with the formulas and then using trigonometry to work out the initial velocity at the release point.

But that is out of the question for the horizontal vector component, as I do not have the time that the ball is in the air, so that leaves the vertical vector component:

I tried setting final velocity as zero, so that the equation of v^2 = v0^2 + 2a(Y - Y0) would give me 0 = v0^2 + 2 * -9.8 * (2.6 - 2.1) which gave me the square root for 9.8 which was 3.13 m/s. But I know that to be wrong now because the answers I've gotten by using that value in my further calculations were incorrect.
 
The final velocity is not zero.
You do not have time, but you have two equations for velocity and two equations for the displacements, both for the horizontal and vertical motions. You can make the time cancel.

Resolve the velocity into vertical and horizontal components. How do they depend on time?

Write out the equation for the vertical and horizontal displacements in terms of time.

You might find this page useful: http://en.wikipedia.org/wiki/Projectile_motion

ehild
 
Thanks for your help.
 
ditde said:
Thanks for your help.

You are welcome.

ehild
 

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