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Practice Data Visualization

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One Solution

10:16 with Anwar Montasir

Welcome back. How did your visualization turn out? Let’s take a look at how I built mine.

Completed Figma File

Vector Shape Resources

Color resources

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    Welcome back. 0:00
    How did your visualization turn out? 0:01
    Let's take a look at how I built mine. 0:04
    My first task was to find a vector map of the United States, 0:06
    which is something I'd rather not draw by hand. 0:10
    I've included a few resources in the Teacher's Notes for 0:13
    finding open source vector shapes, which can be a great 0:17
    time saver when your project needs a common shape or symbol. 0:20
    In my case, I'm duplicating a Figma file featuring an open 0:24
    source United States vector map by a user named Zach Grosser. 0:29
    I'll start with a few changes. 0:34
    I'll make my background off white, and change my states 0:36
    to white for now, while making the stroke thinner. 0:44
    I'll also remove Puerto Rico from my map. 0:53
    Puerto Rico is a lovely island, but it's a United States territory and not a state. 0:56
    And I don't have data for Puerto Rico ready to go. 1:02
    Finally, I'll increase the size of my map a bit. 1:06
    Some of the tiniest states like Delaware and 1:11
    Rhode Island will inevitably be hard to see. 1:14
    But hopefully, I can deliver this map in a large format where users can zoom in. 1:17
    For users to be able to understand this map, we'll need to apply three things. 1:24
    A descriptive heading, a key to understanding what our color values 1:29
    represent, and a link to our source of data. 1:34
    For my heading, I want to choose a somber typeface and 1:37
    make sure my messaging is quickly understood. 1:41
    I'll go with 2019 auto deaths state by state. 1:44
    These numbers are calculated per 100,000 population, but 1:54
    I think that information is best saved for the key. 1:58
    Speaking of the key, 2:02
    let's decide on an appropriate range of numbers based on our data. 2:03
    Unfortunately, our data isn't sortable on the IIHS website, 2:08
    but I'm going to copy and paste into a new Google Sheets document. 2:13
    Under the View menu, I'll freeze my header row, 2:18
    then short my data based on deaths per 100,000 population. 2:23
    That makes our numbers a bit easier to read and organize. 2:30
    The lowest number of 2019 auto fatalities per 100,000 2:34
    population belongs to Washington DC with 3.3. 2:40
    But as DC is not currently a state, it's not represented on my map. 2:44
    The next lowest numbers belong to New York and Massachusetts, 2:50
    both with 4.8 deaths per 100,000 population. 2:54
    The highest number is Wyoming, 2:58
    which is the only state with greater than 25 deaths per 100,000 population. 3:00
    Now to create the key for my map. 3:08
    Since people often group numbers mentally by five, 3:12
    I think it's appropriate to label my key using groupings of five. 3:15
    Making the less than or equal to symbol in Figma for 3:20
    my box labels is a bit complicated. 3:23
    So I'll google that symbol and just use copy paste. 3:26
    When it comes to coloring in my boxes, it's tempting to use green to represent 4:23
    a safer state and red to represent a state with more frequent auto deaths, 4:29
    but Trucker Ted will have trouble telling those colors apart. 4:34
    Since I don't have a client brand guide or design system to follow on this exercise, 4:38
    I'm selecting my colors from a generator website called Coolors, 4:43
    while using caution to choose values that aren't too similar to one another. 4:47
    Once I'm happy with my colors, I'll add them to my color styles palette. 5:38
    Now to apply my color choices to my map. 6:23
    This should be an interesting test of my knowledge of US geography. 6:26
    The three states with greater than 20 auto fatalities per 100,000 6:30
    population in 2019 are Wyoming, Mississippi, and New Mexico. 6:35
    So I'll select those states and apply the darkest value. 6:41
    There are eight states within the next range, so 6:49
    I'll select them in my Google Sheet and sort them alphabetically. 6:52
    It looks like the American South has a high auto fatality rate. 7:30
    That seems meaningful and worth investigating further. 7:34
    And hey, that's why we visualize data, right? To help users spot trends. 7:38
    I'll continue this technique for my next few groups of states. 7:43
    All right, that looks pretty good. 7:49
    Remember how we said California had the most auto fatalities in 7:51
    the nation in 2019? 7:55
    Based on this visualization, we can see that California has significantly 7:57
    fewer fatalities per 100,000 population than many southeastern states, 8:03
    as well as western states like Wyoming and New Mexico. 8:09
    Let's include a link to the source of our data next. 8:13
    I'm including the name of the resource and 8:17
    I'll hyperlink that back to the original article. 8:20
    I'll also include the date, since these statistics were posted March 2021. 8:27
    All that's left is to check the accessibility. 8:46
    I only have one artboard here, so I'll select the map artboard and 8:49
    under the Figma menu I'll choose Plugins and then Stark. 8:54
    Since this graphic isn't interactive, I'm not worried about focus order, 8:58
    but let's try out the vision simulator. 9:03
    The vision simulator lets me simulate three types of color blindness for free. 9:06
    Protanopia and deuteranopia are two variants of red green color blindness. 9:11
    While tritanopia is a less common colorblindness making it difficult 9:18
    to distinguish blue from green, purple from red, and yellow from pink. 9:23
    It looks like my map remains mostly legible using all three simulators. 9:29
    Though I'm a bit concerned, my lightest value coloring New York and 9:34
    Massachusetts isn't distinct enough. 9:38
    I'll make value two a bit darker to compensate. 9:41
    All right, that looks like a pretty good choropleth map. 10:00
    If your solution to this challenge looked totally different, great. 10:03
    There were a lot of different ways to approach this problem. 10:07
    I hope you enjoyed this exercise in creating a data visualization. 10:10
    Keep on practicing. 10:14

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