Histogram is a special type of bar chart. The use of a histogram is to present frequency counts or relative frequencies of the data. Histograms should be used when the frequency of occurrence is important. Perhaps I want to show the frequency of accidents based on the time they occurred. A histogram would have intervals of time. Bar charts are very useful for comparision purposes. Different color or shadings bars can allow for multiple comparisons. Bar charts are also used when the x-axis is not a numerical value, but a general category. In this case, the categories may be ordered, depending on their associated value. For example, you want to show which make of cars have the highest re-sale value, so you rank them from lowest to highest.
Because histograms show grouped data which is used for grouping certain things that people need. Also it is because it is easier to figure out the grouped data otherwise you would have to draw in at least 5 BAR GRAPHS.
bar graphs and histograms similar because In bar graphs are usually used to display "categorical data", that is data that fits into categories. For example suppose that I offered to buy donuts for six people and three said they wanted chocolate covered, 2 said plain and one said with icing sugar. I would present this in a bar garph and Histograms on the other hand are usually used to present "continuous data", that is data that represents measured quantity where, at least in theory, the numbers can take on any value in a certain range. A good example is weight. If you measure the weights of a group of adults you might get and numbers between say 90 pounds and 240 pounds. We usually report our weights as pounds or to the nearest half pound but we might do so to the nearest tenth of a pound or however acurate the scale is. The data would then be collected into categories to present a histogram
Many different types of graphs could be used to represent this data: bar graphs, pie charts, line graphs etc. These are all suitable as long as there is a way to distinguish the different flavours of ice cream and also the difference between the men and women. This would probably be most easily shown by different colours for each men and women.
What is the difference between a bar graph and a histogram?There are two differences, one is in the type of data that is presented and the other in the way they are drawn.In bar graphs are usually used to display "categorical data", that is data that fits into categories. For example suppose that I offered to buy donuts for six people and three said they wanted chocolate covered, 2 said plain and one said with icing sugar. I would present this in a bar garph as:Histograms on the other hand are usually used to present "continuous data", that is data that represents measured quantity where, at least in theory, the numbers can take on any value in a certain range. A good example is weight. If you measure the weights of a group of adults you might get and numbers between say 90 pounds and 240 pounds. We usually report our weights as pounds or to the nearest half pound but we might do so to the nearest tenth of a pound or however acurate the scale is. The data would then be collected into categories to present a histogram. For example:might be a histogram for heights (with the appropriate scale on the vertical axis). Here the data has been collected into categories of width 30 pounds.The difference in the way that bar graphs and histograms are drawn is that the bars in bar graphs are usually separated where in histograms the bars are adjacent to each other. This is not always true however. Sometimes you see bar graphs with no spaces between the bars but histograms are never drawn with spaces between the bars.
In many cases, histograms help interpretations. But you can probably think of cases where this is not true. Perhaps you have too few values. Perhaps your data has many flaws or errors in it. Sometimes, people will select the data that they want think supports their idea, and make histograms using only this data. See related link on histogram.
Because histograms show grouped data which is used for grouping certain things that people need. Also it is because it is easier to figure out the grouped data otherwise you would have to draw in at least 5 BAR GRAPHS.
bar graphs and histograms similar because In bar graphs are usually used to display "categorical data", that is data that fits into categories. For example suppose that I offered to buy donuts for six people and three said they wanted chocolate covered, 2 said plain and one said with icing sugar. I would present this in a bar garph and Histograms on the other hand are usually used to present "continuous data", that is data that represents measured quantity where, at least in theory, the numbers can take on any value in a certain range. A good example is weight. If you measure the weights of a group of adults you might get and numbers between say 90 pounds and 240 pounds. We usually report our weights as pounds or to the nearest half pound but we might do so to the nearest tenth of a pound or however acurate the scale is. The data would then be collected into categories to present a histogram
All graphs are graphical graphs because if they were not graphical graphs they would not be graphs!
It depends on the experiment. You could use any graph that would best represent the data that you have gathered from your experiment. bar graphs, line plots, and line graphs are just a few examples.
One of the best known pieces of software to create histograms is probably Microsoft Excel. One could also produce them with the EasyFit software provided by Mathwave.
the columns on a temlple represent the Olympian gods
You do this.... 2-3,2-3,2-3 and it works! If it was 1-3 say, then the 1 would represent the column and the 2 would represent how far up the bubble is.
No. That would be a histogram.
A column is a chemical family, and they are split up into 18 families. An example would be column 1 which is the Alkali Metals and column 18 is the Noble Gases. A column also shares chemical properties with the elements in its group. A row is split up into groups of chemicals, and are ordered by the atomic number.
It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245It would change the column reference by one column and become:=B245
The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.The column will go where the currently selected column is, pushing all columns to the right. So if column D was selected and you inserted a column, column D would become column E and the inserted column would now be column D.
Because otherwise they would be "non-box" and whisker graphs!