ok so, lets say the experiment you are doing is attaching a different mass onto a spring and seeing how many newtons of force it has. just as an example
independant variable = the thing you
change in your experiment.
i.e the mass. you change it from 0g, to 100, 200g, to 300g etc
dependant variable = this is the thing you
measure.
i.e the newtons. this is the stuff you write into your table of data
controlled variable = this is
everything else, that for good scientific method, STAYS THE SAME. and is controlled. for example, the height at which you hold the mass, the tempurature of the room, the amount of time, the set-up, the type of material, etc etc. it really depends on the context. the thing is with the controlled variables is that they often can create error, because they are not accounted for properly.
with a graph, remember to put in:
- axis names and units in brackets
e.g Force (N), Acceleration (ms^-2), Mass (kg) etc
- title of graph
e.g Force vs Acceleration
- your independant variable on the
x axis (horizontal one)
- a line of best fit. this is not a line that simply joins dots, but is at an
average distance between all points. so you might have 3 points above it, and 3 points below. make sure your line of best fit does not go further than the data you have recorded/been given. If you so, you might be penalised, and you should do it with a dashed line. Remember it might not be straight all the time! it might be curved (but i doubt that in yr 10 they'll give you that)
- mark your points with crosses
- when you claculate a gradient, calculate it from your line of best fit, not from your points
- use a
t least 70% of the graph paper you are given
and thats all i can think of right now....i had my phys prac test yesterday haha
good luck!
