Final answer:
The pilot flies 960 miles in the first leg and 1280 miles in the second leg. By applying the law of cosines with these distances and the 10-degree angle, we can calculate the total distance from the starting point.
Step-by-step explanation:
To determine how far the pilot is from her starting position, we need to use the concept of vector addition. The first leg of her journey is in a straight path for 1 hour and 30 minutes (1.5 hours), and the second leg of the journey is after a course correction, heading 10 degrees to the right, for 2 hours. Flying at a constant speed of 640 mi/h, we can calculate the distance for each leg and then apply the law of cosines to find the total distance from the starting point.
First leg distance:
Distance = speed × time = 640 mi/h × 1.5 h = 960 miles
Second leg distance:
Distance = speed × time = 640 mi/h × 2 h = 1280 miles
To find the total distance from the starting point (R), we use the law of cosines:
R2 = 9602 + 12802 - 2(960)(1280)cos(10°)
After calculating R, we have the total distance from the starting point. This exercise resembles the physics problems involving vector addition and wind influence on an airplane's path.