If you mean the name of the element with the symbol F, it is Flourine
true
As we know that the relation between T(F) and T(C) is given by: T(F)=9/5*T(C)+32 Now we want to know the point at which T(F) and T(C) both agrees i.e T(F)=T(C) So the above expression becomes, T(F)=9/5*T(F)+32 By solving above we get -40oC
If by f you mean the element fluorine, it typically comes in the form of two-atom molecules.
They are not! The whole point about atoms of an individual element is that they are all essentially the same. There may be a small number of varieties - isotope - in which the number of neutrons varies, but that is the only difference.
A mapping, f, from set S to set T is said to be surjective if for every element in set T, there is some element in S such that it maps on to the element in T. Thus, if t is any element of T, there must be some element, s, in S such that f(s) = t.
F. T. Prince has written: 'The Italian element in Milton's verse'
T. F Chen has written: 'Least squares finite element simulation of transonic flows'
5 Toes on each Foot
A set S is a proper subset of a set T if each element of S is also in T and there is at least one element in T that is not in S.
A mathematical function, f, is a mapping from an m-dimensional space, S (the domain), to an n-dimensional space, T, such that for every element in S there is one element in T. This may be denoted by f(x1, x2, ... , xm) = (y1, y2, ... , yn)
Here is its truth-table: A B A and B F F F F T F T F F T T T
p > q~qTherefore, ~p| p | q | p > q | ~q | ~p || t | t | t | f | f || t | f | t | t | f || f | t | t | f | t || f | f | t | t | t |
P | T T F F Q | T F T F Q' | F T F T P + Q' | F T F F The layout is the best I could do with this software. Hope it is OK.
P Q (/P or /Q) T T F T F T F T T F F T
False
Period, T , and frequency, f , are always the inverse of each other; f = 1/T