FALLING BALL EXPERIMENT
Objective: To know how the distance from the floor will influence the impact exerted by the a marble into the viscous matter.
Background information: According to physics free fall consist on the one dimensional motion of an object only under the influence of gravity; earth’s 9.8m/s2 or 10m/s2 to round. We could use to measure different values during free fall with the following equations: V(velocity:m/s)= g(gravity:m/s2)*t(time:s), H(height:m)=½g*t2, and V2=2gh.
V=gt
H=½ gt2
The forces which affect free fall (without vacuum) are: acceleration, air resistance, mass, shape, size, kinetic energy, and gravitational potential energy.
GPE=mgh
KE=½ mv2
Hypothesis: the marble will deepen the viscous matter more when the height is larger. With a low height it will deepen less. this is because the marble has more time to accelerate from a high position than from a low position, so the final velocity (when it hits the viscous matter) the ball from the high position will be bigger than the one from a low position. From a high position can store more gravitational potential energy, so when the marble hits the surface of the viscous matter the marble will possess more kinetic energy.
Materials:
-Marbles of 5 grams
-Beaker of 500ml
-Spoon
-Ruler
-Meter/Measuring tape
-Al3B5 powder
-Electronic scale
Method:
We have made the viscous compound, weighting 10 grams of Al3B5 powder into beaker and then mixing them with 500ml of water using the spoon.- Then we have took marbles of same size and weight, preparing them for their use.
- With the help of the meter/measuring tape we have measured our first dropping distance between the ground and the dropping point,the first distance was 200 centimeters, in our experiment we will drop the marble five times in each distance into the beaker.
- After each drop we measure its penetration into the viscous compound with the ruler, write it down in our lab book and then clean and refill the place where the marble has fallen.
- We repeat steps 3 and 4 with other distances, with: 175 centimeters, 150 centimeters, 125 centimeters, and 100 centimeters.
- Wash and clean all of the used material and make a graph with your previous table of results.
Variables:
- Independent: the measurement that we will change is the initial position of the marble (from what height we let it fall. We will change this variable by measuring with a meter the height from which we will let fall the marble. Measured in cm, the throws will be from: 100cm, 125cm, 150cm, 175cm, and 200cm.
- Dependent: the depth of the penetration of the marble in the viscous matter measured in cm with a ruler.
- Controlled: The mass of the marble which remains constant at 5 grams . Because we always have used the same marble type which weights 5 grams, also we maintain cleaned the marbles. The viscosity of the matter is not change throughout the experiment, because we will have a big beaker of 500ml with the mixture to replace the viscous matter that we use in the experiment maintaining a constant viscosity.
Results:
We have stated our results on a table in order to synthesise the information easier and approach to a relevant conclusion.
Relation between the
distance of the throw and penetration of marble
and the average energy exerted in each case
Average Throw
|
1st Throw
|
2nd Throw
|
3rd Throw
|
4th Throw
|
5th Throw
|
Gravitational Potential
Energy exerted during the fall
|
Kinetic Energy exerted
| |
Throw from 100cm
|
3,18cm
|
2,8cm
|
2,7cm
|
3,2cm
|
3,5cm
|
3,7cm
|
0,048 Joules
|
48 Joules
|
Throw from 125cm
|
4,02cm
|
4,6cm
|
3,9cm
|
3,6cm
|
3,8cm
|
4,2cm
|
0,061 Joules
|
61 Joules
|
Throw from 150cm
|
4,24cm
|
4,5cm
|
3,7cm
|
3,9cm
|
4,3cm
|
4,8cm
|
0,074 Joules
|
74 Joules
|
Throw from 175cm
|
5,34cm
|
5,5cm
|
5cm
|
5,1cm
|
5,2cm
|
5,9cm
|
0,086 Joules
|
86 Joules
|
Throw from 200cm
|
5,94cm
|
5,6cm
|
5,4cm
|
5,7cm
|
6,6cm
|
6,4cm
|
0,098 Joules
|
98 Joules
|
Conclusion:
We have discovered how does the height affect the deepen of the marble through the viscous matter. Our hypothesis was correct and the longer the fall is, the deeper the marble goes into the viscous solution. the gravity is an acceleration number, not a velocity measurement, so the longer is the fall, more time is accelerating, and the final velocity is higher, “creating” more energy throughout the fall.
As we can see in the results, the energies all increase when the height is higher. This is because the energy is incremented by the acceleration (gravity) of the marble. The longer the fall, the more final velocity it will have, so more energy is released when during collisions with surface. We could also observe how Gravitational Potential Energy is linked to Kinetic Energy, as both have similar values in their units, so we could see how forces increment equally during the process.
Videos with a brief demonstration of parts from our experiment:
The first one show the main performance of the experiment, and the second one shows the processing of data and the measurements taken.
REFERENCES:
- Physicstutorials.org. (2014). Free fall. [online] Retrieved from: http://www.physicstutorials.org/home/mechanics/1d-kinematics/free-fall/physics-formulasfree-fall/16-free-fall [Accessed: 25 April 2014].
- Formulas.tutorvista.com. (2014). Free fall formula | formula for free fall | formulas@tutorvista.com. [online] Retrieved from: http://formulas.tutorvista.com/physics/free-fall-formula.html [Accessed: 28 April 2014].
DONE BY: MANUEL PASCUAL FERNÁNDEZ & JAVIER ROJAS CARRILLO FROM 10C
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