You do vector addition.
If they are equal in magnitude but act in opposite directions.
They need equal magnitudes and opposite directions.
When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.
It is a displacement equal in magnitude to the difference between the two vectors, and in the direction of the larger vector.
In order for two vectors to add up to zero:-- their directions must be exactly opposite-- their magnitudes must be exactly equal
When two vectors with different magnitudes and opposite directions are added :-- The magnitude of the sum is the difference in the magnitudes of the two vectors.-- The direction of the sum is the direction of the larger of the two vectors.
If they are equal in magnitude but act in opposite directions.
When the component vectors have equal or opposite directions (sin(Θ) = 0) i.e. the vectors are parallel.
The magnitudes are the same; the directions are opposite
The moving object is slowing down.
They need equal magnitudes and opposite directions.
When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.When they have the same magnitude, but opposite directions.
Their magnitudes are exactly equal, and their directions are exactly opposite.
That their magnitudes are the same but their directions are opposite.
Their magnitudes are exactly equal and their directions are exactly opposite.
Two.Equal magnitudes in opposite directions.
Yes. A vector has magnitude and direction. If the vectors have equal magnitude and directly opposite directions their sum will be zero.