Question: solve 7 with the table above away Potential your calculated solar altitudes make sense for each location before moving on. (2 pts.) Follow these steps:
solve 7 with the table above
away Potential your calculated solar altitudes make sense for each location before moving on. (2 pts.) Follow these steps: Determine the declination of the Sun for each date shown. 2) Determine the Arc Distance (AD): AD = latitude + declination, or latitude - declination, depending whether the values are in the same hemisphere or different hemispheres as described on page 3 3) Determine the Solar Altitude: SA = 900 - AD Date Declination Fairbanks (650 N) Palatine (420 N) Miami (260 N) AD SA AD SA AD SA January 15th -20 65-20=45 90-45=45 42+20=62 90-62=28 26+20=4 90-46-44 March 10th -4 65-4-61 90-61=29 42+4=46 90-46-44 26+4=30 90-30=60 June 21 st 23.5 65-23.5-4 90-41.5=48. 42-23.5=1 90-18.5+71. 26-23.5= 90-2.5=87.5 1.5 8.5 2.5 August 22nd 11 65-11=54 90-54=36 42-11=31 90-31=59 26-11=15 90-15=75 November Ist -14 65-14=51 90-51=39 42+14=56 90-56=34 26+14=4 90-40=50 December 22nd -23.5 65-23.5=4 90-41.5=48. 42+23.5=6 90-65.5=24. 26+23.5= 90-49.5=40.5 1.5 5 5.5 49.5 6. Graph the changes in solar altitude for each location in #6 above. Use a different symbol or color for each location. Note: To determine the Y-axis divisions, do the following: round the highest and lowest values, subtract one from the other, then divide this answer by the number of lines you wish to use on your graph. (1 pt.) Jan Mar Jun Aug Nov Dec 7. Which locations have the lowest and highest solar altitude values throughout the year? [Refer toStep by Step Solution
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