fork (topology)

The notion of a fork appears in the characterization of graphs, including network topology, and topological spaces. A graph has a fork in any vertex which is connected by three or more edges. Correspondingly, a topological space is said to have a fork if it has a subset which is homeomorphic to the graph topology of a graph with a fork. Stated in terms of topology alone, a topological space X has a fork if X has a closed subset T with connected interior, whose boundary consists of three distinct elements and for which the boundary of the complement of T 's interior (relative to X) consists of these same three elements. It is perhaps worth noting that certain definitions of a simple curve as map c : I → X of a real valued interval I to a topological space X such that c is continuous and injective (with the exception, for closed curves, of the two interval endpoints) are weaker than the requirement that its range X be a connected topological space without forks.

<< Previous

Word Browser

Next >>

worcester old elizabethans' association
calluna
united states customs service
amir hamudi hasan al sadi
free scotland party
ghilman
baalah
summer isles
list of sniper rifles
daboecia
bunita marcus

jabneel
hoel iii, duke of brittany
eudes, viscount of porhoet
richard rodney bennett
battle of kinston
vementry
conan iv, duke of brittany
nervin
vaila
goinia accident
that's life! (television)

neuse river
cenarth
shicron
stephen dodgson
cilgerran
guy, duke of brittany
dromaeosauridae
esther rantzen
dura mater
grand strategy
joseph smith iii

caernarfon bay
alix of thouars
giancarlo fisichella
republikani miroslava sladka
pravastatin
conwy bay
deductible
southwestern christian college
st catherine's island
danish peoples party
borna virus