The orientation of the three vectors that sum to zero must be coplanar, contained in the same common plane, including being contained in a common line in a plane.
Er.. I'm not Einstein ;-) but I'll try and put you on the right track... The term "magnetic vector" refers to the amplitude and direction of the magnetic field associated with an electromagnetic wave. Hope this helps!
Yes, a vector can be represented in terms of a unit vector which is in the same direction as the vector. it will be the unit vector in the direction of the vector times the magnitude of the vector.
The zero vector is both parallel and perpendicular to any other vector. V.0 = 0 means zero vector is perpendicular to V and Vx0 = 0 means zero vector is parallel to V.
Vector spaces can be formed of vector subspaces.
The square of a vector quantity is the vector magnitude times itself without a change in the orientation.
The three parts of a vector quantity are magnitude, direction, and orientation. Magnitude refers to the size or length of the vector, direction indicates the line along which the vector acts, and orientation specifies the starting point of the vector.
To show the correct direction of a vector, you need to specify the reference point or origin from which the vector is being measured, and also indicate the angle or orientation at which the vector is pointing relative to that reference point. This information can be represented using coordinate axes, angles, or directional headings.
Yes, nuclear spin is a vector quantity. It has both magnitude and direction, and is typically represented by a vector symbol with a specific orientation in space. The direction of the nuclear spin vector determines its orientation with respect to an external magnetic field.
because it has an orientation(a direction) it also helps later on with certain operations, but it is a vector because it has a length(1) and a direction(whatever that may be)
The square of a vector quantity is the dot product of the vector with itself. This is calculated by multiplying each component of the vector with itself and adding the results together.
No, a vector is a quantity that is fully described by both magnitude and direction. Magnitude represents the size or amount of the vector, while direction indicates the orientation of the vector in space.
A vector changes when its magnitude or direction changes. This can occur if external forces act on the vector, altering its components or orientation.
South West orientation makes both components negative.
South West orientation makes both components negative.
Most genes contain restrictions sites. Once you've inserted your gene into the vector you use restrictions sites in the gene and the vector to cut the vector into smaller pieces. If the pieces correspond to the pattern you expect for a reverse orientated gene then you know it is in the reverse orientation.
No, the value of a vector quantity will remain unchanged even if the reference axes are changed. The vector will have the same magnitude and direction regardless of the orientation of the axes.