Projectile motion lab

An Inquiry Lab for Angled Projectiles

Now if you lift the carbon paper, there should be a mark on the paper underneath where the ball landed. You will certainly need to recall the stuff about propagation of error.

What is a Projectile?

While determining the angle of maximum range, we used the launcher to shoot the ball at different angles, starting at 30 degrees and increasing by 5 degree increments up to 50 degrees, and then determined the point at which the ball landed for each angle of projection. Measure the vertical distance the marble will fall from the table and record.

Projectile is fired from a higher vertical position than its landing position Projectile is fired from the same vertical position as its landing position Students are also asked to use the kinematics equations to predict the horizontal range given a launch angle and muzzle velocity.

TI-Nspire Lab Cradle

The measurements are as follows: Place the ball in the barrel. The horizontal motion of the projectile is the result of the tendency of any object in motion to remain in motion at constant velocity. Measure the time with a stop watch for the ball to go up and back down. The difference is that the polar axes are determined by the point itself.

Given initial velocity and distance traveled by the arrow, how much time does it take to reach the target?

Also, the time of flight can be found. Defining Projectiles A projectile is an object upon which the only force acting is gravity. Thrown Ball Two boys, at a distance 63 meters apart, are playing catch.

Use the kinematic equations to determine the time.

Projectile Motion

A projectile is an object upon which the only force is gravity. This process was repeated five times in order to obtain average values to work with in order to eliminate error. A force is only required to maintain an acceleration.

Projectile Motion

The positions are measured relative to the Projectile motion lab with down as positive direction. The two parts, x and y, are referred as "components. Horizontal Launch Your launcher may already have attached the bracket necessary to mount it to a ringstand. Arrow This interactive problem will help learners understand why we deal with kinematic equations for both components of motion in the example of an arrow shot from a bow.

Push the ball down the barrel with the pushrod until the trigger catches the piston. First, to find the maximum range at which the ball travels, the ball had to be fired at various angles.

Repeat several times to get an uncertainty in both height and horizontal distance. And if an object is moving upward and rightward, there must be both an upward and rightward force.

Then use this time in the horizontal motion. Projectile Motion Now for the objective: When the angle has been selected, gently tighten the thumb screw. Perpendicular components of motion are independent of each other. How could its motion be described?

If there were any other force acting upon an object, then that object would not be a projectile. PASCO projectile launchers are designed for repeatable and accurate launches. Leading Lab Design Classroom Video: The ball will drop vertically below its otherwise straight-line, inertial path.

When there is approximately 10 minutes prior to the end of class 5 minutes left of the time I've allowed for this labI ask students to put everything back the way they found it and return to their seats. Find a the initial speed of the ball, b the time at which the ball reaches the cheap seats, and c the velocity components Again, calculate the uncertainty in the velocity.

Here is some stuff on kinematics and projectile motion: For this method, aim the launcher horizontally to shoot the ball on to the floor. They reason, "How in the world can an object be moving upward if the only force acting upon it is gravity?

Measure and record the vertical distance that the ball will fall before impacting the floor like you did in Part A. Note roughly where it lands and place a piece of carbon paper there. And in the case of a projectile that is moving upward, there is a downward force and a downward acceleration.Projectile Motion Formulas for oblique projection Find this Pin and more on Medicine by Sarah Curnutte.

Projectile Motion Example Question Using Kinetic and Potential Energy to determine Maximum Height, Projection Angle and the Distance covered by the object. This HTML5 app shows the motion of a projectile.

The "Reset" button brings the projectile to its initial position. You can start or stop and continue the simulation with the other button.

Projectile Motion Lab Report

Lab Week 8: Projectile Motion The purpose of this lab activity is to use mathematical models to predict where a projectile will land. In addition, this lab will demonstrate the importance of considering uncertainties in all measurements and calculations. Vertical motion of projectile Because gravity has a downward pull, the vertical velocity changes constantly.

The equation that predicts the vertical velocity at any time 'vy' is The 'Voy' is simply the original velocity in the vertical or y-direction.4/4(8). Experiment 5 - Air Track. Home • NEWS • Demos • Physics Mail • Physics Forum. 10, 16, 17, 25, 27, 28, 29 • Search • iPhysics • MicroLabs a, & b.

Projectile Simulator The Projectile Simulator Interactive provides the learner with a user-friendly, virtual environment for exploring a variety of principles associated with projectile motion.

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Projectile motion lab
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