S t 2.
Inclined plane marble experiment lab report.
August 23 2001 purpose.
For many years the effects of mass on objects rolling down an inclined plane have been studied and well known.
An example of potential energy is a stretched out rubber band the farther you stretch it the more potential energy it has.
Steel ball bearing or marble wood block stopwatch tape meter stick protractor procedure.
Be familiar with galileo s inclined plane.
Your child has created an inclined plane a concept of physical science that is called a simple machine simple machines include.
Potential energy is the energy that is stored in an object.
When building a marble run your child will likely discover that tilting a cardboard tube and lowering one end will make the marble move.
Set up a ramp with the angle of the incline at about 10 to the horizontal as shown in figure a.
In this experiment the inclined plane makes work easier by allowing gravity without any help from you to move the marble down the ramp.
Understand the relationships between distance time average speed instantaneous speed and acceleration.
Become familiar with the concept of hypothesis testing by experiment.
This is an important experiment in physical science.
A cart is accelerated down a nearly frictionless inclined plane.
These positions will be your.
Observe and measure motion on an inclined plane.
Divide the ramp s length into six equal parts and mark the six positions on the board with pieces of tape.
As we conduct our experiment we will gradually increase the incline s angle of elevation recording the height between the top of the table and.
The force an acceleration for cart accelerated down an inclined plane is studied as function of the angle of incline.
The purpose of this experiment is to measure the acceleration due to gravity g.
In our experiment we will model galileo s ramp and his determination of the behavior for naturally occurring accelerated motion by using an inclined plane a motion detector and the labpro software.
Through this experiment galileo concluded that if an object is released from rest and gains speed at a steady rate as it would in free fall or when rolling down an inclined plane then the total distance s traveled by the object is proportional to the time squared needed for that travel.
Created for doc s physics class produced by madison plummer class of 2013.