A resultant vector is a single vector that represents the combined effect of two or more individual vectors. It is the vector that would result if the individual vectors were added together using vector addition.
To calculate a resultant vector, you must first determine the direction and magnitude of each individual vector. Then, use vector addition to add the individual vectors together to find the direction and magnitude of the resultant vector.
A resultant vector is a single vector that represents the combined effect of multiple component vectors. A component vector is an individual vector that contributes to the resultant vector. In other words, a component vector is a part of the resultant vector.
A resultant vector is typically represented graphically by an arrow. The length of the arrow represents the magnitude of the vector and the direction of the arrow represents the direction of the vector.
Resultant vectors are important in science because they allow us to analyze and understand complex systems. Many physical phenomena can be explained and predicted by considering the resultant vector of all the forces acting on an object. This concept is crucial in fields such as physics, engineering, and astronomy.