Determine the total displacement and exact direction of the travel.
To determine the total displacement and exact direction of travel, you need to know the starting point and the final destination. Displacement refers to the change in position from the starting point to the final destination, while direction refers to the path followed.
To calculate the total displacement, you need to find the vector sum of all individual displacements. First, break down the travel into its individual legs or segments, if applicable. Determine the displacement for each segment by subtracting the initial position of that segment from the final position. Repeat this process for all segments, noting both the magnitude (distance) and direction of each displacement.
Once you have the individual displacements, combine them using vector addition to find the total displacement. To add vectors, you need to consider both magnitude and direction. For example, if two displacements are in the same direction, you simply add their magnitudes. However, if they are in opposite directions, you subtract their magnitudes.
To determine the exact direction of travel, you need to consider the net displacement vector. This will give you a direction in terms of degrees or angles relative to a reference point, such as north, east, west, or south. You can use a compass or direction indicators like N, E, W, or S to express the direction accurately.
In summary, to determine the total displacement and exact direction of travel, follow these steps:
1. Identify the starting point and final destination.
2. Break down the travel into individual segments, if applicable.
3. Calculate the displacement for each segment by subtracting the initial position from the final position.
4. Combine the individual displacements using vector addition to find the total displacement.
5. Determine the direction of travel using the net displacement vector, indicating the direction in terms of degrees or reference points.