Two vectors are max when parallel and min when anti-parallel.
When the vectors are parallel, i.e. both have the same direction.
To add two vectors that aren't parallel or perpindicular you resolve both of the planes displacement vectors into "x' and "y" components and then add the components together. (parallelogram technique graphically)
If two vectors are represented by the same magnitude and direction they are said to be equal.
To add two vectors that aren't parallel or perpindicular you resolve both of the planes displacement vectors into "x' and "y" components and then add the components together. (parallelogram technique graphically)AnswerResolve both of the planes displacement vectors into x and y components and then add the components
The vector product (cross product) of two vectors will be zero when the vectors are parallel or antiparallel to each other. This means the vectors are either pointing in the same direction (parallel) or in opposite directions (antiparallel).
Antiparallel refers to the arrangement of two molecules or structural components in opposite directions, where one runs in a 5' to 3' direction and the other in a 3' to 5' direction. This term is often used in the context of DNA strands running in opposite directions in a double helix structure.
When two vectors sum to zero, they must be equal in magnitude but opposite in direction. This relationship is known as the vectors being antiparallel.
Two vectors are max when parallel and min when anti-parallel.
Antiparallel forces are forces that act in opposite directions along the same line of action. This means that the forces are equal in magnitude but opposite in direction. In a free-body diagram, antiparallel forces are typically represented using arrows pointing in opposite directions along a straight line.
When the vectors are parallel, i.e. both have the same direction.
Antiparallel refers to a configuration where two molecules or structures run in opposite directions. In terms of DNA, antiparallel describes the orientation of the two strands running in opposite 5' to 3' directions. This allows for complementary base pairing to occur between the strands.
Yes - if you accept vectors pointing in opposite directions as "parallel". Example: 3 + 2 + (-5) = 0
No, it is simpler than that. Simply add the two magnitudes. The direction will be the same as the parallel vectors.
The magnitudes of two vectors are added when the vectors are parallel to each other. In this case, the magnitude of the sum is equal to the sum of the magnitudes of the two vectors.
To add two vectors that aren't parallel or perpindicular you resolve both of the planes displacement vectors into "x' and "y" components and then add the components together. (parallelogram technique graphically)
If two vectors are represented by the same magnitude and direction they are said to be equal.