Exp. 5: conservation of energy, Purpose, Theory – PASCO ME-6800 Projectile Launcher (Short Range) User Manual

®

M o d e l N o . M E - 6 8 0 0

E x p . 5 : C o n s e r v a t i o n o f E n e r g y

0 1 2 - 0 5 0 4 3 G

23

Exp. 5: Conservation of Energy

Equipment Needed

*Use the Photogates and Photogate Mounting Bracket with a PASCO Interface or Timer to measure the initial speed of the ball
directly (see Experiment 2).

Purpose

The purpose of this experiment is to confirm that the initial kinetic energy of a
projectile shot straight up is transformed into an equal amount of gravitational
potential energy.

Theory

The total mechanical energy of a projectile is the sum of its gravitational poten-
tial energy and its kinetic energy. In the absence of friction, total mechanical
energy is conserved. When a projectile is shot straight up, the initial gravitational
potential energy (GPE) can be defined as zero. The initial kinetic energy (KE)
depends on the mass, m, of the projectile and the initial speed:

When the projectile reaches its maximum height, h, the speed of the projectile is
zero and therefore the kinetic energy is zero. The gravitational potential energy
depends on the mass of the projectile and the height:

where g is the acceleration due to gravity. If friction in the form of air resistance is ignored, the initial kinetic
energy should equal the final gravitational potential energy.

The initial speed of the projectile must be determined in order to calculate the initial kinetic energy. To calculate
the initial speed, v

0

, of a projectile fired horizontally, the horizontal distance travelled by the projectile is x = v

0

t

where t is the time that the projectile is in the air.

The vertical distance that projectile drops in
time, t, is given by

The initial speed of the projectile can be calcu-
lated by measuring x and y and using y to calcu-
late the time, t. The time of flight of the
projectile can be found using

and then the initial speed can be found using

Item

Item

Projectile Launcher and plastic ball

Plumb bob and string

Meter stick or measuring tape

Sticky tape

White paper

Carbon paper

Photogate Head ME-9498A (2) optional*

Photogate Mounting Bracket ME-6821A optional*

CAUTION!

DO NOT LOOK

DOWN BARREL!

CAUTION!

DO NOT LOOK

DOWN BARREL!

CAUTION!

DO NOT LOOK

DOWN THE BARREL.

LONG

RANGE

MEDIUM

RANGE

SHOR

T

RANGE

Position

of Ball

Launch

SHOR

T RANGE

PROJECTILE LAUNCHER

ME-6800

Y

ellow Band in Window

Indicates Range.

90

80

70

60

50

40

30

20

10

0

WEAR

SAFETY

GLASSES

WHEN IN USE.

Use 25 mm

balls ONL

Y!

υ

0

initial position

final position

h

Figure 5.1: Conservation
of Energy

KE

1
2

---mv

0

2

=

GPE

mgh

=

y

x

υ

0

Figure 5.2: Find the initial speed

y

1
2

---gt

2

=

t

2y

g

------

=

v

0

x

t

--

=