With the “rain doesn’t fall the same on all” saying in mind, Ms. Clark wants her students to work with data that represents an area broader than their single station. The Rainy Day Report (i.e., daily county-level data) available through CoCoRaHS serve this purpose. However, Ms. Clark realizes that these data are presented as averages, a concept typically not introduced until sixth grade. Students won’t need to calculate averages, but rather understand what they represent, so Ms. Clark decides to engage students in an activity to help them visualize the concept of a “county average.” 

Without students present, Ms. Clark uses the rain gauge to measure 1 inch of water and pours this water into an unmarked cup. She then labels five other cups to represent five different “stations.” Once students enter class, she divides them into 5 teams and gives each team one of the labeled cups. She explains that each cup represents a station in their county. Ms. Clark circulates and pours a small amount of water into each team’s cup. To help students understand that it is possible to have no precipitation in a location, even when it is raining nearby, Ms. Clark bypasses one of the cups. Before asking students to combine the rain from each of their cups, she asks students to look around at the “rain” that has fallen in each part of the county. Is it the same? She then asks the teams to combine their precipitation into the rain gauge and then hands the rain gauge to the team with no precipitation requesting that they read the total amount in the gauge. The team reports “1 inch.” Ms. Clark writes 1 inch on the board and directs students to work in pairs to determine how much each station would have measured if it had rained the same amount at each location/station. Students use different methods (e.g., hundredths grids, algorithms, skip counting) and determine that each station would have had 0.20 inches. 

Ms. Clark states that 0.20 would be the average precipitation for their county and explains that averages provide a general idea of the amount of precipitation for a county for a set time period. She continues to explain that it is likely that no one spot in the county would have recorded the exact average precipitation amount, in this case 0.20 inches.

1. Select View Data on the CoCoRaHS homepage. 

In the “Summary Reports” section of the list, select Rainy Days Report.

1. Use the menus to select the County and Date(s) of interest. 

There is not currently an option to export these data. However, data in the table can be copied and pasted into a spreadsheet in a different program. More information on how to access and copy these data can be found starting on page 2 of this pdf: https://media.cocorahs.org/docs/CoCoRaHS_Rain_Reigns.pdf

Although the concept of a mathematical average, or mean, is not explicitly addressed by math standards until sixth grade, supporting students as they develop an understanding of this concept will help them make sense of the data collected throughout the CoCoRaHS project. 

The average is calculated by adding all values in a data set and dividing the sum by the number of values in a set. For this engagement, that would mean having students add the precipitation at all county stations (e.g., on one day) and dividing by the number of stations to help students make sense of the amount of precipitation in their county. While computing the average may seem simple to students, a lack of conceptual understanding may limit students’ abilities to interpret the average itself.

If time allows, one extension possibility is to have students think about when using an average is useful and when it is not as useful to help build students’ conceptual understanding of how averages are used. What types of questions can be addressed using an average? What types of questions need information in addition to the average? What types of questions are not answered by the average and need different information? 

Vocabulary: Many students have some experience with the term “average.” Elicit student prior knowledge with examples such as average weight, height, points per game, age for a particular achievement, cost of something, miles per gallon, etc. 

Preconceptions: Help students see that “average” is an idea that exists for many things and question all students around what they think average really means. Student ideas may include a notion that something is in the middle, the goal of what something should be at, not really good or really bad, or even just normal. Make connections with discussion points that students bring up when intervening. 

Connecting with County Level Data: Use what students know and understand about averages to help them make sense of what a precipitation average would mean in the context of county-level data. Averages provide a general idea of the amount of precipitation for a county for a set time period, but it is likely that no one spot in the county will have recorded the exact average precipitation amount. This may challenge student conceptions that an average is “what most are.”

 Students may find it helpful to use grid paper to simulate a place value chart when working with decimal values. Encourage students to record the decimal point in a box, rather than along the grid line between the “ones” and “tenths” boxes. This approach allows students to draw on their understanding of place value when making comparisons.

Meteorologists are Mathematicians! They use weather data to make calculations and predictions on a daily basis. The following brief video explains how math is used by meteorologists each day: Weather Wise Kids.

More information about how researchers and engineers use data from the CoCoRaHS website can be found under the tab “Who Uses CoCoRaHS observations?.”

Additionally, every 10 years, US Climate Normals are released. Normals are standards for comparing today’s weather with what has occurred over the past 30 years. Meteorologists, climatologists, and others use the 30 year Normals to make comparisons with temperature, precipitation, and other variables. Climate Normals on the CoCoRaHS website posts the most recent 30 year normals and provides more information about them. Students can use the 30 year normals as Meteorological Mathematicians and make additional comparisons to their station’s averages.

How does having multiple stations in a county help us understand CoCoRaHS data?