Rainfall of the World Assessment Task (Year 7)

[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.