How to Successfully Launch a Marble Through Two Hoops: A Projectile Physics Lab

In summary, the objective of the lab is to make a marble go through two hoops using a ramp, textbooks, and a marble. The teacher will provide a specific distance or height for the hoops. The student has to do a pre-lab to determine the procedure for accomplishing this task. They have already figured it out, but appreciate the offer for help.
  • #1
le123
3
0
In my lab for physics we are given a ramp, some textbooks, and a marble. The objective of the lab is to make the marble go through two hoops (the hoops are about an inch and a half wide, the marble is about 3/4ths of an inch). Our teacher is going to give us either a specific distance from the table, or a height from the ground for the hoops. I have to do a pre-lab saying what procedure we will do in order to figure out how to make the marble go through both hoops. I sort of have an idea of what to do, but it would great if someone could just verify and explain the procedure we need to do in order to accomplish this! Thanks guys(:
 
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  • #2
Hi!
Could you please sketch first, how this is to be orchestrated? Is the marble to travel through the hoops? Or on them? do they form the track, or are they suspended in air?
Clarify that, and we'll get you going,
Daniel
 
  • #3
I already figured it out! But thanks anyway, Daniel(:
 

Related to How to Successfully Launch a Marble Through Two Hoops: A Projectile Physics Lab

1. What is a projectile in physics?

A projectile in physics is any object that is thrown or launched into the air, and is subject to the force of gravity. Examples of projectiles include balls, arrows, and rockets.

2. Why is projectile motion important in physics?

Projectile motion is important in physics because it helps us understand how objects move through the air and how gravity affects their trajectory. It also has practical applications in fields such as engineering and ballistics.

3. What factors affect the trajectory of a projectile?

The trajectory of a projectile is affected by its initial velocity, its angle of launch, and the force of gravity. Other factors such as air resistance and wind can also have an impact.

4. How is the range of a projectile calculated?

The range of a projectile is calculated using the formula range = (initial velocity^2 * sin(2*launch angle)) / gravity, where the launch angle is measured in radians. This formula assumes a flat surface and no air resistance.

5. How can projectile motion be applied in real-world situations?

Projectile motion can be applied in real-world situations such as calculating the trajectory of a golf ball or a basketball, predicting the path of a missile, or determining the optimal angle for launching a rocket into space.

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