5 Tips for Analyzing Integrated Reasoning Questions on the GMAT:
The new Integrated Reasoning section of the GMAT, set to launch in June 2012, requires some solid data analysis skills. Data is presented in short paragraphs, tables, charts, and graphs and answer choices must be selected in several formats. These tips will help you make sense of the information presented in the Integrated Reasoning section, and allow you to successfully interpret and synthesize it for better scores!
1. Note how the variables relate to each other. Especially when you see a Table or a Graph, quickly summarize for yourself the relationship between the variables in each table, chart, or graph. Do they have a direct or indirect correlation? Does the data spike or significantly decrease at certain points?
2. Treat Integrated Reasoning like an open-book test. One of the most common mistakes on the Integrated Reasoning section is using the wrong information because of a slight grasp of the presented information. The data you need to solve IR questions must lie on the various screens; you just have to know where to look. First understand what the question is asking, then stop and consider which table, graph, chart, or part of the passage provides the relevant information you’ll need to solve for the correct answer. Harder IR questions will require you to use more than one screen or ask you to take information or figures from one screen and apply it to another.
3. Pause to read the all of the labels. Mentally categorize each graph, chart and table. Do not just skip the screens entirely and go straight to the question/s on IR! While you may think this will save you time, it actually significantly decreases your accuracy. Make sure you read every tiny piece of writing on or near the data, including titles, the labels for the x and y-axes, column names, and even footnotes, if any. Analysis and synthesis are the tested skills in IR, and you’ll need to fully comprehend the data in order to answer questions accurately. Unlike RC, skimming will never work here!
4. Check out the units. Once you understand the labels, take special care to note the units (mph, m/sec, cm2, etc.). Are we dealing with seconds, minutes, or hours? Does one graph represent a year, while the other graph represents the specific months? The units may change from graph-to-graph or chart-to-table, and some IR questions might ask you do simple conversions as you move between the screens.
5. Always ask: what does this data tell me? Most scientific reasoning either goes from broad to specific, or from specific to broad. Pay attention to the trends in the presented information. What kinds of generalization are possible, and does the remaining data corroborate this, or contradict it?