A position time graph can show you velocity. As time changes, so does position, and the velocity of the object can be determined. For a speed time graph, you can derive acceleration. As time changes, so does velocity, and the acceleration of the object can be determined.
If you are plotting velocity (speed) versus time, the slope is the acceleration.
The slope of a position-time graph is velocity. The slope of a velocity-time graph is acceleration. Displacement also can be determined by determining the area under the slope of a velocity-time graph.
Time is the independent variable and as such is on the x-axis.
The biodiversity graph depicts the variability of species in the given area.
You can graph anything you like in any way you like. The important thing is that the information is conveyed effectively. One of my favourites gives information on losses suffered by Napoleon's army during his invasion of Russia. See link:
The information given by the slope of ("on") a distance-time graph is the SPEED. The size ("magnitude") of the slope is the size of the speed and the units of the distance axis are divided by the units on the time axis to give the units of the speed ... so if your distance is in miles and time is in hours then your speed will be in miles per ("divided by") hours (mph)... but if distance is in metres and time is in seconds then the speed is in metre per second (m/s).
You cannot since the graph shows displacement in the radial direction against time. Information on transverse displacement, and therefore transverse velocity, is not shown. For example, there is no difference in the graph of you're staying still and that of your running around in a circle whose centre is the origin of the graph. In both cases, your displacement from the origin does not change and so the graph is a horizontal line. In the first case the velocity is 0 and in the second it is a constantly changing vector. All that you can find is the component of the velocity in the radial direction and this is the slope of the graph at the point in question.
The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.
A bar graph is information that is collected by counting can be displayed on this graph. A pie graph is a graph that shows information as parts of a circle
A bar graph is information that is collected by counting can be displayed on this graph. A pie graph is a graph that shows information as parts of a circle
This depends upon the graph; you can graph any kind of information that you like.
The information that are in a climate graph are temperature and rainfall.
The answer depends on what type of information is contained in the graph, the form of the graph and how good you are at reading and interpreting that information.
Information in a circle graph is often shown as percentages.
The answer to a graph that uses bars to show information is a bargraph
If I can't see the graph then how will I know the answer?
a line graph is over time. a bar graph is not
The best graph for numerical information will depend on what you want to present. The linear graph, bar and the pie graph are some of the best graphs to present numerical data.
It i easy a speech a graph and a photograph
It i easy a speech a graph and a photograph