tool Method 1. Place the elastic band on the stool legs and place the stool on the table surface. 2. Place the 100gm weight in the beaker (to make sure that the beaker isnt too light, so it doesnt go flying off the table). 3. Place the metre stick beside the stool and place the beaker in front of the elastic band. 4.
Attach the Newton meter to the elastic band and pull back with a force of two Newtons 5. Remove the Newton meter from the elastic band taking care not to release the elastic band. 6. Let go of the elastic band so that it propels the beaker forwards. 7. Measure how far the beaker has gone and repeat with a force of 4, 6, 8 and finally 10N. I predict that when we use a force of 10 Newtons to propel the beaker, it will travel further than if we used a smaller force. I think this because of Newtons Second Law which states: If there is an Unbalanced Force, then the object will accelerate in that direction.
This basically means that when a force is exerted on an object it will move in the direction that the force is going. But, there are always two forces acting on an object, in opposite directions. Newton states that the bigger force acting on an object will move that object forwards. Hence, Newtons Second Law. I also know that when I increase the force, I will be increasing the distance travelled because of the fact that a bigger force will give more energy to the beaker, which will push the beaker further than a smaller force. To make sure that this test is safe I will wear safety goggles.
I will also use a plastic beaker, so if it does fall on the floor, it will not break. I will repeat my results 4 times so that I can find any anomalous results. I will be testing the forces: 2, 4, 6, 8 and 10N. Secondary data Newtons First Law So long as the forces on an object are balanced, then itll just stay still, or else if its already moving itll just carry on at the same velocity so long as the forces are balanced Newtons Second Law If there is an Unbalanced Force, then the object will accelerate in that direction Newtons Third Law.
If object A exerts a force on object B then object B exerts the exact opposite force on object A Obtaining evidence Weight of beaker (gm) Force elastic band is pulled back (N) Distance travelled 1st test (mm) 2nd test (mm) 3rd test (mm) 4th test (mm) Average (mm) 100 2 60 66 66 144 84 100 4 71 119 98 118 101. 5 100 6 86 219 145 200 162. 5 100 8 138 177 220 251 196. 5 100 10 185 188 340 349 265. 5 As you can see I had quite a few anomalous results. Some are minor and happen only once or twice on the tests, but the entire 10N force test results were different.
Analysis As you can see from my table and my graph (on another sheet) you can see that as I increased the force used to propel the beaker, so did the distance that it travelled. As you can see between points 8 and 10 on the graph there is a dramatic increase in the distance travelled. Normally you would expect the distance travelled to go up at a steady rate as the force used increases, but in my experiment it didnt. I think that this is probably due to the fact that the test wasnt very accurate.
However, my prediction was correct: that when we use a larger force to propel the beaker across a surface, it will travel further than if we propel it with a smaller force. This is due to Newtons Third Law: If there is an Unbalanced Force, then the object will accelerate in that direction. This proves that the force that pushed the beaker across the table was greater than the force that was stopping the beaker. As a result the beaker slid across the table. Evaluation I think that my experiment gave inaccurate results as it was difficult to get the right amount of force used to propel the beaker.
For example as I had to remove the Newton meter from the elastic band, so it didnt get damaged, there was no way of telling whether the band was still at the same force when I released it to when I took the meter of it. Also the stool could have moved after the meter was removed, which means the elastic band could have lost or gained force. One way of stopping this could be to properly secure the stool to the table, so that it didnt move, but then it would still leave the problem of the elastic bad moving.
I think that my results were fairly accurate as if we look at the graph the results are spread quite evenly and they do go up evenly rather than going up, and dropping down. The anomalous results were probably caused by the fact that the elastic band probably moved a bit after I removed the Newton meter. I think that the results for the 10N force are all a bit inaccurate as because I was using a big force the elastic was tighter, so therefore it was harder to keep in the right place.