nswer Scientists have recognised the need to know the initial conditions of substances being dated, and have devised methods to... more »
Equilibrant vector is the opposite of resultant vector, they act in opposite directions to balance each other.
The resultant of two vectors cannot be a scalar quantity.
The zero-vector has no direction.
A resultant Vector.
That is usually called the resultant vector.
The Resultant Vector minus the other vector
The resultant vector describes the complete vector, magnitude and direction; while the component vector describes a single component of a vector, like the x-component. If the resultant vector has only one component, the resultant and the component are the same and there is no difference.t
The resultant vector is the vector that 'results' from adding two or more vectors together. This vector will create some angle with the x -axis and this is the angle of the resultant vector.
the difference between resultant vector and resolution of vector is that the addition of two or more vectors can be represented by a single vector which is termed as a resultant vector. And the decomposition of a vector into its components is called resolution of vectors.
by method of finding resultant
Equilibrant vector is the opposite of resultant vector, they act in opposite directions to balance each other.
If the scalar is > 1 the resultant vector will be larger and in the same direction. = 1 the resultant vector will be the same as the original vector. between 0 and 1 the resultant vector will be smaller and in the same direction. = 0 the resultant vector will be null. If the scalar is less than 0, then the pattern will be the same as above except that the direction of the resultant will be reversed.
A resultant vector is one vector which can replace all the other vectors and produce the same effect.
nswer Scientists have recognised the need to know the initial conditions of substances being dated, and have devised methods to... more »
When you add vectors graphically you connect them head to tail, keeping their length and direction constant. The difference from the tail of the first one to the head of the last one is the resultant vector. Go to the related link below.
equilibrant
resultant vector a vector in which 1 side shiner and another side is polish is called resultant vector