Using the data in Table 2, make the following plots on Excel using Time as the X axis in each of the plots: · Time (min) vs Methane (ppm) · Time (min) vs Carbon Dioxide (ppm) ·Time (min) vs Water Vapor (%) Table 2. Bronx/CUNY Greenhouse Gas Data for May 1, 2013 TIME (min) Methane (ppm)|Carbon Dioxide (ppm)|Water Vapor (%) 30 1.96 415 0.56 60 1.96 416 0.55 90 1.97 416 0.58 120 1.99 419 0.55 150 1.98 417 0.51 180 1.99 418 0.51 210 2.02 422 0.52 240 2.07 432 0.53 270 2.03 430 0.57 300 2.01 426 0.60 330 2.05 428 0.61 360 2.07 436 0.65 390 2.04 429 0.65 420 2.05 431 0.65 450 2.02 427 0.63 480 2.05 428 0.62 510 2.07 431 0.62 540 2.07 433 0.62 570 2.09 440 0.62 600 2.08 439 0.62 630 2.15 460 0.65 660 2.22 459 0.63 690 2.06 447 0.63 720 2.00 432 0.60 750 1.95 418 0.58 780 1.93 413 0.58 810 1.92 410 0.53 840 1.92 407 0.52 870 1.92 409 0.56 900 1.91 408 0.65 930 1.90 406 0.79 960 1.90 406 0.90 990 1.90 403 1.00 1020 1.90 403 0.97 1050 1.90 403 0.94 1080 1.90 403 0.98 1110 1.90 403 1.00 1140 1.90 403 1.05 1170 1.90 403 1.07 1200 1.90 403 1.08 1230 1.90 404 1.09 1260 1.90 404 1.09 1290 1.91 403 1.09 1320 1.92 403 1.07 1350 1.92 403 1.05 1380 1.94 403 1.05 1410 1.93 403 1.06 1440 1.95 403 1.07 3. The data in Table 3 below shows the percent extraction of HNO3 solutions by the Zano method. Plot a smooth curve in Excel for the "% HNO, Extracted" as the y-axis and “Molarity of HNO," as the X-axis. Label each axis and give a title to the graph. יי

Pls graph on excel and provide summary on what the graph is telling you 

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4:30 l 5G O O bbhosted.cuny.edu data Is snOwn Tor on May 1, 2013 Using the data in Table 2, make the following plots on Excel using Time as the X axis in each of the plots: . Time (min) vs Methane (ppm) . Time (min) vs Carbon Dioxide (ppm) · Time (min) vs Water Vapor (%) Table 2. Bronx/CUNY Greenhouse Gas Data for May 1, 2013 TIME (min) Methane (ppm) Carbon Dioxide (ppm) Water Vapor (%) 30 1.96 415 0.56 60 1.96 416 0.55 90 1.97 416 0.58 120 1.99 419 0.55 150 1.98 417 0.51 180 1.99 418 0.51 210 2.02 422 0.52 240 2.07 432 0.53 270 2.03 430 0.57 300 2.01 426 0.60 330 2.05 428 0.61 360 2.07 436 0.65 390 2.04 429 0.65 420 2.05 431 0.65 450 2.02 427 0.63 480 2.05 428 0.62 510 2.07 431 0.62 540 2.07 433 0.62 570 2.09 440 0.62 600 2.08 439 0.62 630 2.15 460 0.65 660 2.22 459 0.63 690 2.06 447 0.63 720 2.00 432 0.60 750 1.95 418 0.58 780 1.93 413 0.58 810 1.92 410 0.53 840 1.92 407 0.52 870 1.92 409 0.56 900 1.91 408 0.65 930 1.90 406 0.79 960 1.90 406 0.90 990 1.90 403 1.00 1020 1.90 403 0.97 1050 1.90 403 0.94 1080 1.90 403 0.98 1110 1.90 403 1.00 1140 1.90 403 1.05 1170 1.90 403 1.07 1200 1.90 403 1.08 1230 1.90 404 1.09 1260 1.90 404 1.09 1290 1.91 403 1.09 1320 1.92 403 1.07 1350 1.92 403 1.05 1380 1.94 403 1.05 1410 1.93 403 1.06 1440 1.95 403 1.07 3. The data in Table 3 below shows the percent extraction of HNO, solutions by the Zano method. Plot a smooth curve in Excel for the "% HNO; Extracted" as the y-axis and “Molarity of HNO;" as the X-axis. Label each axis and give a title to the graph. 3.