If you add two complex numbers, the resulting complex number is equivalent to the vector resulting from adding the two vectors.
If you multiply two complex numbers, the resulting complex number is equivalent to the vector resulting from the cross product of the two vectors.
The answer is 92. Simply add the numbers together arithmetically as you would for the problem two plus two. To check your work, a calculator is the best option. If the values represent vectors at right angles then the answer is 72.73
graphic vectors- created by lines on screen to lead the eye in a general direction index vectors- points unquestionably in a direction. like an actor's pointing hand or a neon arrow motion vector- uses an object in motion to draw the eye
Linear data structures are 1-dimensional arrays, as in: vectors.
You can read more about the lattice structure of the mineral diamond, below.
On the surface, it seems net applied force on the ring would be zero. Vectors assessed at any point will sum to a value of equal but opposite sign to the vectors at a point symetrically opposite. In a perfect theoretical construct, the force vectors will "cancel out" and nothing will happen. But there may be a little more to this....
Imaginary, or more precisely complex numbers (vectors that have a real part and an imaginary part) are used in a variety of fields, including:Electrical engineering - in AC, several quantities are best described by complex numbers.Quantum physicsTheoretical math - often, an understanding of complex numbers can even help you better understand real numbers.Art - for a start, take a look at the Mandelbrot Set!And many others more.Imaginary, or more precisely complex numbers (vectors that have a real part and an imaginary part) are used in a variety of fields, including:Electrical engineering - in AC, several quantities are best described by complex numbers.Quantum physicsTheoretical math - often, an understanding of complex numbers can even help you better understand real numbers.Art - for a start, take a look at the Mandelbrot Set!And many others more.Imaginary, or more precisely complex numbers (vectors that have a real part and an imaginary part) are used in a variety of fields, including:Electrical engineering - in AC, several quantities are best described by complex numbers.Quantum physicsTheoretical math - often, an understanding of complex numbers can even help you better understand real numbers.Art - for a start, take a look at the Mandelbrot Set!And many others more.Imaginary, or more precisely complex numbers (vectors that have a real part and an imaginary part) are used in a variety of fields, including:Electrical engineering - in AC, several quantities are best described by complex numbers.Quantum physicsTheoretical math - often, an understanding of complex numbers can even help you better understand real numbers.Art - for a start, take a look at the Mandelbrot Set!And many others more.
What are difference between scalars and vectors
Coplanar :The vectors are in the same plane.Non coplanar :The vectors are not in the same plane.
A scalar is simply a real number (sometimes complex numbers are used). A vector has both a magnitude (a number), and a direction. Examples: Mass is a scalar; a force is a vector (you may get different results if you pull in different directions).
A vector has a direction associated with it. A number (or scalar) does not.
Two vectors; V1 + V2=0 where V1= -V2, two opposite vectors.
The angle between 2 vectors can have any value.
ma0!
Vectors have a direction associated with them, scalars do not.
When the angle between two vectors is zero ... i.e. the vectors are parallel ... their sum is a vector in thesame direction, and with magnitude equal to the sum of the magnitudes of the two original vectors.
Without the difference between scalars and vectors the Universe doesn't work !
Coplanar :The vectors are in the same plane.Non coplanar :The vectors are not in the same plane.