PASCO ME-6825A MINI LAUNCHER User Manual

012-05479B

Mini Launcher

9

®

(Total Average Distance = Distance to paper edge + Average Distance)

Part B: Predicting the Range of the Ball Shot at an Angle

➀

Adjust the Mini Launcher to launch at an angle between 20 and 60 degrees above the horizontal. Record
this angle in Table 1.2.

➁

Using the initial velocity and vertical distance found in the first part of this experiment, calculate the new
time of flight and the new horizontal range for a projectile launched at the new angle. Record in Table
1.2.

➂

Draw a line across the middle of a white piece of paper and tape the paper on the floor so the line is at
the predicted horizontal distance from the Mini Launcher. Cover the paper with carbon paper.

➃

Shoot the ball ten times.

➄

Measure the ten distances and take the average. Record in Table 1.2.

Analysis

➀

Calculate the Total Average Distance. Record in Table 1.2.
(Total Average Distance = Distance from Edge of Paper + Horizontal Distance to paper edge)

➁

Calculate and record the percent difference between the predicted value and the resulting average
distance when shot at an angle.

➂

Estimate the precision of the predicted range. How many of the final 10 shots landed within this range?

Trial Number

Distance from Edge of Paper

1

2

3

4

5

6

7

8

9

10

Average

Total Average Distance

Angle above horizontal = ______________

Horizontal distance to paper edge = ____________

Calculated time of flight = _____________

Predicted Range = ____________

Table 1.2 Confirming the Predicted Range