Yes, finite numbers are always countable.
all finite set is countable.but,countable can be finite or infinite
A null set, a finite set, a countable infinite set and an uncountably infinite set.
No. If the variable is continuous, for example, height or mass of something, or time interval, then the set of possible outcomes is infinite.
This is called a discrete set (all points isolated) or a finite set. Finite sets are always discrete.
A verb is a doing word and a doing word is something that you do for example clap,jump,run,eat,sprint
all finite set is countable.but,countable can be finite or infinite
YES
It is a measure, but it isn't always sigma-finite. Take your space X = [0,1], and u = counting measure if u(E) < infinity, then E is a finite set, but there is no way to cover the uncountable set [0,1] by a countable collection of finite sets.
here is the proof: http://planetmath.org/encyclopedia/ProductOfAFiniteNumberOfCountableSetsIsCountable.html
the number of steps of an algorithm will be countable and finite.
A null set, a finite set, a countable infinite set and an uncountably infinite set.
the number of steps of an algorithm will be countable and finite.
The noun 'drugs' is a countable noun, the plural form of the singular noun 'drug'.A countable noun is a word for something that can be counted, something with a singular and a plural form.Example: That is the most common drug for your condition but there are other drugs available.
Finite means that something has a beginning and an end. As opposed to infinite which means something has no measurable ends.Converging lines meet at a point, parallel lines meet at infinity.
The word 'additional' is not a noun; additional is an adjective, a word that describes a noun (a countable or uncountable noun).The noun form is addition; a countable noun as a word for something that you add to something else (an addition to a product line, an addition to a building); an uncountablenoun as a word for the act of adding something to something else (addition is the first step in learning math).
No. If the variable is continuous, for example, height or mass of something, or time interval, then the set of possible outcomes is infinite.
No. In fact it is always finite - unless the sphere itself is infinite.