You express a vector along the X-axis as a negative vector when the arrow representing the vector would point toward negative x.
cross product of tow vector result in a vector which is perpendicular the multiplying vector then these three vector are perpedicular
opposite direction.
Unless the vector is one dimensional, or only valued along one base in a multidimensional space, in which case the magnitude is equal to it's components, a vector's magnitude has to be greater than its components.
Yes this happens in case of area. Usually area is a scalar quantity. But we provide the direction of course perpendicular to its plane area we make it as a vector. Same way though electric current is not a vector it is sensed as vector as we put along with length of conductor. I is scalar but Idl is vector.
Yes. The "direction" of the vector is along the axis of rotation.Yes. The "direction" of the vector is along the axis of rotation.Yes. The "direction" of the vector is along the axis of rotation.Yes. The "direction" of the vector is along the axis of rotation.
A tangent of the vector is the projection of a vector along the axes of a coordinate system.
translation and reflection are alike in the sense that they are generally both examples of an image being moved or changed, however translation is the movement of an image along a vector while reflections reflects an image over a given axis.
You express a vector along the X-axis as a negative vector when the arrow representing the vector would point toward negative x.
a translation
Glide reflection
Vector b would be along the z axis, it could have any magnitude.
In 2 dimensional space it is a translation vector which is a 2x1 column vector.
Expression vectors contain translation start and termination codons. Moreover, it contains promoter region
The translation vector.
cross product of tow vector result in a vector which is perpendicular the multiplying vector then these three vector are perpedicular
When the arrow representing the vector would point toward negative x.