It is difficult to answer the question with any degree of certainty because there is no information on what the strings are meant to be doing, and to what. A likely answer is that the resultant will be a smaller force.
The single vector which would have the same effect as all of them together
Resultant vector or effective vector
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.
the less force is needed.
The margin of error is reduced.
The direction will change; the magnitude of the resultant force will be less.
The direction will change; the magnitude of the resultant force will be less.
A resultant vector is one vector which can replace all the other vectors and produce the same effect.
Resultant
The single vector which would have the same effect as all of them together
The orginal strings used for violins were made out os sheep intestines. These strings came out of tune easily and were hard to play on. They were also expensive. Modern strings sound better. They viberate when you pluck them. This makes them sound louder and better. They also stay in tune better. But there really isnt a difference between the pitches of strings as long as they are for the SAME instrument.
resultant vector is a vector which will have the same effect as the sum of all the component vectors taken together.
yes it does
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.
Resultant vector or effective vector
Increasing the distance between the two most widely separated radio telescopes has an enormous effect on resolution.
Increasing divergence between reproductively isolated populations, occasionally leading to speciation, is one effect of evolution.