The "resultant" is the description (magnitude and direction) of a single vector
that would have the same effect as the two or more vectors have when they're
all acting at the same time.
Resultant Vector
resultant
Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.
Two or more vectors combine to form a resultant sum; V1 + V2 + ...+ Vn = VR
The law is used to add vectors to find the resultant of two or more vectors acting at a point.
A resultant Vector.
The sum of two or more vectors is called the resultant vector. It represents the combination of all individual vectors acting together.
The combination of two or more vectors results in a new vector known as the resultant vector. This resultant vector is found by adding or subtracting the individual vectors' magnitudes and directions.
adding two or more vectors
A resultant vector.
The resultant of two vectors cannot be a scalar quantity.
Resultant Vector
resultant
Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.Yes - if the vectors are at an angle of 60 degrees. In that case, the two vectors, and the resultant, form an equilateral triangle.
The resultant vector is the vector that represents the sum of two or more vectors. It is calculated by adding the corresponding components of the vectors together. The magnitude and direction of the resultant vector depend on the magnitudes and directions of the individual vectors.
Two or more vectors combine to form a resultant sum; V1 + V2 + ...+ Vn = VR
The law is used to add vectors to find the resultant of two or more vectors acting at a point.