- Make observations.
- Post only one observation until the entire class has posted.... There are enough for everyone to contribute.
- Are there any areas that could use improvement:
- Copy the class results in your notebook for discussion
- The graph below contains most of essential elements for future graphs
It has a key to show how they found the slope.
ReplyDeleteEquation for slope on graph
ReplyDeleteThere is a title and labels to let you know what the graph is about
ReplyDeletethe line illustrated shows a positive relationship.
ReplyDeleteThe x-axis has intervals of .1 and the y-axis goes by 10
ReplyDeleteShows that 1 block equals one volt
ReplyDeletefor y axis
DeleteAnd one block equals .01 amps
ReplyDeletefor x axis
DeleteThere are points plotted on and off the line.
ReplyDeleteIn other words the line went through some points and not the others.
DeleteThere are 8 points plotted on the graph.
ReplyDeleteVoltage and Current determine the experimental resistance of a resistor
ReplyDeleteit has a positive slope, only showing the positive answers.
ReplyDeleteFrom what I've looked at the slope of the line is 3/5 (inference)
ReplyDeletethe slope of the graph is 54.6 ohms
ReplyDeleteThe graph is measured in volts/amps
ReplyDeleteFind 2 alternate points on the graph that lie as far right and left using semi major axis. Use those 2 points to calculate the slope.
ReplyDeletepoints do not lie directly on the line-jake cook
ReplyDelete