Yes, because amplitude is the maximum displacement of a wave from its rest position and displacement has direction and it's a vector. hence, amplitude is a vector. That is a bit like saying a weigh scale is a vector, because it goes up and down as you get on and off it. As with weight, pressure, etc, amplitude is the scale of wave magnitude against which particular waves are measured. Frequency is the vector, because you are measuring from one peak to the next, so the "length" gives it "direction," ie. a vector.
That is usually called the resultant vector.
It is a displacement vector.
Vector addition derives a new vector from two or more vectors, and vector resolution is breaking a vector down into its two or more components.
It has magnitude 0 and a direction and obeys vector laws, so is a vector
I think it is vector graphics and raster(bit mapped) graphics
It depends on complexity of a drawn picture, but in most cases, vector graphics takes less space on a media: a bit-mapped image stores information about each pixel of an image, wille vector image stores only types of objects and parameters for further rendering.
These are predefined words in VHDL standards. Bit indicates that the data type is a bit i. e. 0 or 1. A bit_vector is an array of bits. example: a: in bit; b: in bit_vector(1 downto 0);
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.
It will be the vector sum of the forces. Since in this case they are acting in the same direction we can ignore the vector bit so 30 + 10 = 40 Newton
The bitmapped graphics file is a .bmp file.
Graphic images where each pixel is bit-mapped and take up more memory?
Yes, because amplitude is the maximum displacement of a wave from its rest position and displacement has direction and it's a vector. hence, amplitude is a vector. That is a bit like saying a weigh scale is a vector, because it goes up and down as you get on and off it. As with weight, pressure, etc, amplitude is the scale of wave magnitude against which particular waves are measured. Frequency is the vector, because you are measuring from one peak to the next, so the "length" gives it "direction," ie. a vector.
Vector quantization lowers the bit rate of the signal being quantized thus making it more bandwidth efficient than scalar quantization. But this however contributes to it's implementation complexity (computation and storage).
If the vectors a and b are arranged so that the head of a (the arrow bit) is at the tail of b, then c must be from the tail of a to the head of b. The vectors a and b can be swapped since vector addition is commutative.
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...
90 degrees