Reading Vector Clock Timestamps
Causally OR Concurrent:Events a and b are either causally related or they are concurrent. Definition: "event a" causes "event b" if and only if ta < tbwhere:ta < tb If and only if they meet two conditions:
The component of a vector x perpendicular to the vector y is x*y*sin(A) where A is the angle between the two vectors.
a vector is a line with direction and distance. there is no answer to your question. the dot is the angular relationship between two vectors.
Distance.
The resultant vector has maximum magnitude if the vectors act in concert. That is, if the angle between them is 0 radians (or degrees). The magnitude of the resultant is the sum of the magnitudes of the vectors.For two vectors, the resultant is a minimum if the vectors act in opposition, that is the angle between them is pi radians (180 degrees). In this case the resultant has a magnitude that is equal to the difference between the two vectors' magnitudes, and it acts in the direction of the larger vector.At all other angles, the resultant vector has intermediate magnitudes.
NULL VECTOR::::null vector is avector of zero magnitude and arbitrary direction the sum of a vector and its negative vector is a null vector...
The difference is the length of the vector.
They are the same.
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.
List is not sync'd as a vector is.
vector is usually is the arthropodes carrying the parasites such as mosquitoes.
Equilibrant vector is the opposite of resultant vector, they act in opposite directions to balance each other.
There is no difference.
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A unit vector is a vector with a magnitude of 1, while a unit basis vector is a vector that is part of a set of vectors that form a basis for a vector space and has a magnitude of 1.
When two vectors are in opposite directions, their resultant is the difference between their magnitudes, with the direction of the larger vector. This means the resultant vector points in the direction of the larger vector and its magnitude is the difference between the magnitudes of the two vectors.
Yes, the magnitude of the difference between two vectors can be greater than the magnitude of either vector. This can occur when the vectors are in opposite directions or have different magnitudes such that the resulting difference vector is longer than either of the original vectors.
Zero is a number (a scalar quantity without unit) while zero vector (or null vector) is a vector quantity having zero magnitude and arbitrary direction.