Question

To find the magnitude and direction of the resultant displacement, we can add the given displacements using vector addition.

First, let's convert the second displacement from polar to cartesian coordinates:
Magnitude = 50 km
Direction = 60° north of East

To convert the direction to Cartesian coordinates, we need to split it into its north and east components.
North component = Magnitude * sin(direction) = 50 km * sin(60°)
East component = Magnitude * cos(direction) = 50 km * cos(60°)

North component = 50 km * sqrt(3)/2 = 25√3 km
East component = 50 km * 1/2 = 25 km

Now, we can add the displacements together:

Total north component = -10 km + 25√3 km
Total east component = 25 km

Total north component = 25√3 km - 10 km ≈ 43.3 km
Total east component = 25 km

To find the magnitude of the resultant displacement, we use the Pythagorean theorem:
Magnitude = sqrt((Total north component)^2 + (Total east component)^2)
Magnitude = sqrt((43.3 km)^2 + (25 km)^2)
Magnitude ≈ sqrt(1878.49 km^2 + 625 km^2)
Magnitude ≈ sqrt(2503.49 km^2)
Magnitude ≈ 50.03 km

To find the direction of the resultant displacement, we use the inverse tangent function:
Direction = atan(Total north component / Total east component)
Direction = atan(43.3 km / 25 km)
Direction ≈ 59.69°

Therefore, the magnitude of the resultant displacement is approximately 50.03 km and the direction is approximately 59.69°.