The single vector which would have the same effect as all of them together
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.
yes it is
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.
ma0!
The possible range of the resultant of two vectors depends on their magnitudes and the angle between them. If the magnitudes of the two vectors are ( A ) and ( B ), the resultant vector can have a minimum value of ( |A - B| ) (when the vectors are in opposite directions) and a maximum value of ( A + B ) (when they are in the same direction). Thus, the resultant can range from ( |A - B| ) to ( A + B ).
When you resolve a vector, you replace it with two component vectors, usually at right angles to each other. The resultant is a single vector which has the same effect as a set of vectors. In a sense, resolution and resultant are like opposites.
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 of two vectors cannot be a scalar quantity.
yes it is
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.
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.
ma0!
The possible range of the resultant of two vectors depends on their magnitudes and the angle between them. If the magnitudes of the two vectors are ( A ) and ( B ), the resultant vector can have a minimum value of ( |A - B| ) (when the vectors are in opposite directions) and a maximum value of ( A + B ) (when they are in the same direction). Thus, the resultant can range from ( |A - B| ) to ( A + B ).
adding two or more vectors
A resultant Vector.
The smallest resultant of two vectors is the sum of two equal vectors which make an angle of 180 degrees among each other.
resultant vector is a vector which will have the same effect as the sum of all the component vectors taken together.