Total Correction Angle Calculation for Converging at Destination

What is the total correction angle needed to converge at the destination?

Is the total correction angle A) 10 degrees B) 4 degrees C) 6 degrees?

Answer:

The total correction angle to converge at the destination is approximately 62 degrees.

To find the total correction angle needed to converge at the destination, we can use trigonometry. The information provided includes the distance off course (9 mi), distance flown (95 mi), and distance to fly (125 mi).

If we visualize these distances as the sides of a triangle, we can apply the Law of Cosines to calculate the angle. By substituting the given values into the formula, we can find the cos(A) value:

cos(A) = (9^2 + 95^2 - 125^2) / (2 * 9 * 95)

cos(A) = 811 / 1710

cos(A) = 0.4749

Taking the inverse cosine of 0.4749 will give us the total correction angle: A ≈ cos^(-1)(0.4749) ≈ 62 degrees.

Therefore, the total correction angle required to converge at the destination is approximately 62 degrees, which is significantly different from the provided options A) 10 degrees, B) 4 degrees, and C) 6 degrees.

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