opposite
If the sum of their components in any two orthogonal directions is zero, the resultant is zero. Alternatively, show that the resultant of any two vectors has the same magnitude but opposite direction to the third.
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.
The only way that two vectors add up to zero is if they have equal magnitude and opposite direction. If the magnitudes are not equal then no, they cannot give a zero resultant.
Yes, a resultant vector is the vector sum of the two vectors. It has it's own direction and magnitude.
Two - if you add two vectors of equal magnitude but in opposite directions, the resultant vector is zero.
Thee direction of the two vectors.
The zero-vector has no direction.
If the sum of their components in any two orthogonal directions is zero, the resultant is zero. Alternatively, show that the resultant of any two vectors has the same magnitude but opposite direction to the third.
Yes. A vector has magnitude and direction. If the vectors have equal magnitude and directly opposite directions their sum will be zero.
Assuming you want non-zero vectors, two opposing vectors will give a resultant of zero.
The only way that two vectors add up to zero is if they have equal magnitude and opposite direction. If the magnitudes are not equal then no, they cannot give a zero resultant.
Yes, a resultant vector is the vector sum of the two vectors. It has it's own direction and magnitude.
Two - if you add two vectors of equal magnitude but in opposite directions, the resultant vector is zero.
The resultant of two vectors is a third vector., for example V1 + V2 = V3. V3 may be equal to zero, greater than zero or less than zero.
It is certain that two vectors of different magnitudes cannot yield a zero resultant force.
No.
They are vectors of equal magnitudes in oppositedirections. When you add them, they cancel out each other.