rdivide, ./
Syntax
Description
Examples
Divide a Quaternion Array by a Real Scalar
Create a 2-by-1 quaternion array, and divide it element-by-element by a real scalar.
A = quaternion([1:4;5:8])
A = 2x1 quaternion array
1 + 2i + 3j + 4k
5 + 6i + 7j + 8k
B = 2; C = A./B
C = 2x1 quaternion array
0.5 + 1i + 1.5j + 2k
2.5 + 3i + 3.5j + 4k
Divide a Quaternion Array by Another Quaternion Array
Create a 2-by-2 quaternion array, and divide it element-by-element by another 2-by-2 quaternion array.
q1 = quaternion(magic(4)); A = reshape(q1,2,2)
A = 2x2 quaternion array
16 + 2i + 3j + 13k 9 + 7i + 6j + 12k
5 + 11i + 10j + 8k 4 + 14i + 15j + 1k
q2 = quaternion([1:4;3:6;2:5;4:7]); B = reshape(q2,2,2)
B = 2x2 quaternion array
1 + 2i + 3j + 4k 2 + 3i + 4j + 5k
3 + 4i + 5j + 6k 4 + 5i + 6j + 7k
C = A./B
C = 2x2 quaternion array
2.7 - 0.1i - 2.1j - 1.7k 2.2778 + 0.092593i - 0.46296j - 0.57407k
1.8256 - 0.081395i + 0.45349j - 0.24419k 1.4524 - 0.5i + 1.0238j - 0.2619k
Input Arguments
A
— Dividend
quaternion
object | array of quaternion
objects | real scalar | array of real numbers
Dividend, specified as a quaternion
object, an
array of quaternion
objects of any dimensionality, a real scalar, or an
array of real numbers of any dimensionality. Numeric values must be of data type
single
or double
.
A
and B
must have compatible sizes. In the
simplest cases, they can be the same size or one can be a scalar. Two inputs have
compatible sizes if, for every dimension, the dimension sizes of the inputs are the same
or one of the dimensions is 1.
B
— Divisor
quaternion
object | array of quaternion
objects | real scalar | array of real numbers
Divisor, specified as a quaternion
object, an
array of quaternion
objects of any dimensionality, a real scalar, or an
array of real numbers of any dimensionality. Numeric values must be of data type
single
or double
.
A
and B
must have compatible sizes. In the
simplest cases, they can be the same size or one can be a scalar. Two inputs have
compatible sizes if, for every dimension, the dimension sizes of the inputs are the same
or one of the dimensions is 1.
Output Arguments
C
— Result
quaternion
object | array of quaternion
objects
Result of quaternion division, returned as a quaternion
object or
an array of quaternion
objects.
Algorithms
Quaternion Division
Given a quaternion and a real scalar p,
Note
For a real scalar p, A./p = A.\p.
Quaternion Division by a Quaternion Scalar
Given two quaternions A and B of compatible sizes,
Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.
Version History
Introduced in R2020b
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