Learning Objectives
- Define projectile motion
- Solve a quadratic equation that represents projectile motion
- Interpret the solution to a quadratic equation that represents projectile motion
Projectile motion happens when you throw a ball into the air and it comes back down because of gravity. A projectile will follow a curved path that behaves in a predictable way. This predictable motion has been studied for centuries, and in simple cases it’s height from the ground at a given time, t, can be modeled with a quadratic polynomial of the form [latex]\text{height}=at^2+bt+c[/latex] such as we have been studying in this module. Projectile motion is also called a parabolic trajectory because of the shape of the path of a projectile’s motion, as in the image of water in the fountain below.
Parabolic motion and it’s related equations allow us to launch satellites for telecommunications, and rockets for space exploration. Recently, police departments have even begun using projectiles with GPS to track fleeing suspects in vehicles, rather than pursuing them by high-speed chase [1].
In this section we will solve simple quadratic polynomials that represent the parabolic motion of a projectile. The real mathematical model for the path of a rocket or a police GPS projectile may have different coefficients or more variables, but the concept remains the same. We will also learn to interpret the meaning of the variables in a polynomial that models projectile motion.
Example
A small toy rocket is launched from a 4-foot pedestal. The height (h, in feet) of the rocket t seconds after taking off is given by the formula [latex]h=−2t^{2}+7t+4[/latex]. How long will it take the rocket to hit the ground?
In the next example we will solve for the time that the rocket is at a given height other than zero.
Example
Use the formula for the height of the rocket in the previous example to find the time when the rocket is 4 feet from hitting the ground on it’s way back down. Refer to the image.
[latex]h=−2t^{2}+7t+4[/latex]
The video that follows presents another example of solving a quadratic equation that represents parabolic motion.
Summary
In this section we introduced the concept of projectile motion, and showed that it can be modeled with a quadratic polynomial. While the models used in these examples are simple, the concepts and interpretations are the same. The methods used to solve quadratic polynomials that don’t factor easily are many and well known, it is likely you will come across more in your studies.
Candela Citations
- Parabolic motion description and example. Provided by: Lumen Learning. License: CC BY: Attribution
- Factoring Application - Find the Time When a Projectile Hits and Ground. Authored by: James Sousa (Mathispower4u.com) for Lumen Learning. Located at: https://youtu.be/hsWSzu3KcPU. License: CC BY: Attribution
- Parabolic water trajectory. Authored by: By GuidoB. Located at: https://commons.wikimedia.org/w/index.php?curid=8015696. License: CC BY-SA: Attribution-ShareAlike
- "Cops' Latest Tool in High-speed Chases: GPS Projectiles." CBSNews. CBS Interactive, n.d. Web. 14 June 2016. ↵