Reference Guide
Full Command and Function Reference 3-109
Output: Level 2/Item 1: The value for u.
Level 1/Item 2: The value for v.
Flags: Exact mode must be set (flag –105 clear).
Numeric mode must not be set (flag –3 clear).
Radians mode must be set (flag –17 set).
Example: Find a solution in integers of the equation:
6a + 11b = 3
Command:
IABCUV(6,11,3)
Result:
{6,-3}
See also: ABCUV, IEGCD
IBASIS
Type: Command
Description: Determines the basis of the intersection between two vector spaces.
Access: Matrices, !Ø L
VECTOR
Input: Two lists of vectors
Output: A list of vectors.
Flags: Exact mode must be set (flag –105 clear).
Example: Find a vector of a basis of the intersection of the vector sub-spaces defined by [1, 2] and [2, 4]
Command:
IBASIS({[1,2]}, {[2,4]})
Result:
{[1,2]}
See also: BASIS
IBERNOULLI
Type: Function
Description: Returns the nth Bernoulli number for a given integer n.
Access: Arithmetic, !Þ
INTEGER
Input: Level 1/Argument 1: an integer.
Output: Level 1/Item 1: The corresponding nth Bernoulli number for the integer. For numbers greater
than about 40 the calculation can take a long time.
Flags: Numeric mode must not be set (flag –3 clear).
IBP
Type: Command
Description: Performs integration by parts on a function. The function must be able to be represented as a
product of two functions, where the antiderivative of one of the functions is known:
f(x) = u(x).v’(x)
Note that the command is designed for use in RPN mode only.
Access: P
CALC
or Calculus, !Ö
DERIV
&
INTEG
L
Input: Level 2: The integrand expressed as a product of two functions,
u(x).v’(x)
Level 1: The antiderivative of one of the component functions, v(x).
Output: Level 2: u(x)v(x)
Level 1: -u'(x)v(x)