| findzeros {pracma} | R Documentation |
Find All Roots
Description
Finding all roots of a unvariate function in an interval by splitting the interval in many small subintervals.
Usage
findzeros(f, a, b, n = 100, tol = .Machine$double.eps^(2/3), ...)
Arguments
f |
functions whose roots shall be found. |
a, b |
endpoints of the interval. |
n |
number of subintervals to generate and search. |
tol |
tolerance for identifying zeros. |
... |
Additional parameters to be passed to the function. |
Details
Roots, i.e. zeros in a subinterval will be found by applying uniroot
to any subinterval where the sign of the function changes. The endpoints of
the interval will be tested separately.
If the function points are both positive or negative and the slope in this
interval is high enough, the minimum or maximum will be determined with
optimize and checked for a possible zero.
The function need not be vectorized.
Value
Numeric vector with the x-positions of all roots found in the interval.
See Also
Examples
f1 <- function(x) sin(pi/x)
findzeros(f1, 1/10, 1)
# 0.1000000 0.1111028 0.1250183 0.1428641 0.1666655
# 0.2000004 0.2499867 0.3333441 0.4999794 1.0000000
f2 <- function(x) 0.5*(1 + sin(10*pi*x))
findzeros(f2, 0, 1)
# 0.15 0.35 0.55 0.75 0.95
f3 <- function(x) sin(pi/x) + 1
findzeros(f3, 0.1, 0.5)
# 0.1052632 0.1333333 0.1818182 0.2857143
f4 <- function(x) sin(pi/x) - 1
findzeros(f4, 0.1, 0.5)
# 0.1176471 0.1538462 0.2222222 0.4000000
## Not run:
# Dini function
Dini <- function(x) x * besselJ(x, 1) + 3 * besselJ(x, 0)
findzeros(Dini, 0, 100, n = 128)
ezplot(Dini, 0, 100, n = 512)
## End(Not run)