Wind Speed and Direction Data Analysis

What is the average wind direction and speed at Little Rock?

Based on the data, what is the predominant wind direction at the specified location?

Answer:

The wind at Little Rock was generally from the west-southwest at about 68 knots.

The question deals with calculating the wind speed and direction affecting an aircraft, requiring knowledge of physics principles, specifically vector analysis. It relates to understanding wind patterns which is essential in aviation and energy generation.

The question seems to be about determining the wind speed and direction that affects an aircraft or a similar situation. In physics, this type of problem typically involves vector addition or subtraction to calculate the resultant velocity of an object in motion when a wind or any other external force is applied. To answer the specific question about the wind at Little Rock and its impact on a plane, one would need to use the given speeds and directions from the figures to perform calculations. For instance, if an aircraft is heading north at 45.0 m/s and its velocity relative to the ground is given as 38.0 m/s west of north, we can use vector analysis to determine the speed and direction of the wind blowing against the plane.

From the provided resources, we also notice discussions about average wind velocity maps and capacity factors which offer insights into wind patterns and wind energy potential in various regions. This data is crucial when considering wind flow for aviation and energy generation purposes. The wind's potential to affect travel time or energy production is an important concept in physics.

← Natural disasters frequency a closer look Superstorm sandy a natural disaster example →