[one_full last=”yes” spacing=”yes” center_content=”no” hide_on_mobile=”no” background_color=”” background_image=”” background_repeat=”no-repeat” background_position=”left top” border_position=”all” border_size=”0px” border_color=”” border_style=”” padding=”” margin_top=”” margin_bottom=”” animation_type=”” animation_direction=”” animation_speed=”0.1″ class=”” id=””][fusion_text]Link for Rainfall Information[/fusion_text][fusion_text]Link for Rubric[/fusion_text][/one_full][one_full last=”yes” spacing=”yes” center_content=”no” hide_on_mobile=”no” background_color=”” background_image=”” background_repeat=”no-repeat” background_position=”left top” border_position=”all” border_size=”0px” border_color=”” border_style=”” padding=”” margin_top=”” margin_bottom=”” animation_type=”” animation_direction=”” animation_speed=”0.1″ class=”” id=””][fusion_text]
| 7C | 7B | 7A | 8A | 9A | 10A |
| Column Graph of the rainfall of 10 countries | Column Graph of the rainfall of 10 countries | Column Graph of the rainfall of 10 countries | Column Graph of the rainfall of more than 10 countries | Column Graph of the rainfall of more than 10 countries | Column Graph of the rainfall of more than 10 countries |
| Calculation of the mean, median, mode and range of the data set | Calculation of the mean, median, mode and range of the data set | Calculation of the mean, median, mode and range of the data set | Calculation of the mean, median, mode and range of more than 1 data set | Calculation of the mean, median, mode and range of more than 1 data set | Calculation of the mean, median, mode and range of more than 1 data set |
| Nicely presented work | Identification of any outlying data. | Identification of any outlying data. | Comparing back-to-back data displays using mean, median and range | Comparing back-to-back data displays using mean, median and range | Comparing back-to-back data displays using mean, median and range |
| Reflection of learning from the task. | Nicely presented work | Calculation of the mean, median, mode and range for the data set without the outlying data. | Identification of any outlying data. | Identification of any outlying data. | Identification of any outlying data. |
| Reflection of learning from the task. | Description of the changes the outlying data has caused to the mean, median, mode and range. | Calculation of the mean, median, mode and range for the data set without the outlying data. | Calculation of the mean, median, mode and range for the data set without the outlying data. | Calculation of the mean, median, mode and range for the data set without the outlying data. | |
| Nicely presented work | Description of the changes the outlying data has caused to the mean, median, mode and range. | Description of the changes the outlying data has caused to the mean, median, mode and range. | Description of the changes the outlying data has caused to the mean, median, mode and range. | ||
| Reflection of learning from the task. | Description of back-to-back data as ‘skewed’, ‘symmetric’ or ‘bi-modal’ | Description of back-to-back data as ‘skewed’, ‘symmetric’ or ‘bi-modal’ | Description of back-to-back data as ‘skewed’, ‘symmetric’ or ‘bi-modal’ | ||
| Nicely presented work | Evidence of calculating quartiles and interquartile range | Evidence of calculating quartiles and interquartile range | |||
| Reflection of learning from the task. | Evidence of the construction of box plots | Evidence of the construction of box plots | |||
| Compare 2 box plots and discuss distribution of data | Compare 2 box plots and discuss distribution of data | ||||
| Nicely presented work | Calculate standard deviation of a set of data | ||||
| Reflection of learning from the task. | Evidence of the usage of standard deviation to compare 2 sets of data | ||||
| Investigate the effects of outliers on the standard deviation of set of data | |||||
| Nicely presented work | |||||
| Reflection of learning from the task. |
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