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An antisymmetric relation on a set is a binary relation ( R ) such that if ( aRb ) and ( bRa ) then ( a = b ). For a set with ( n ) elements, there are ( n(n-1)/2 ) pairs where ( a \neq b ), and each of these pairs can independently be included or excluded from the relation. Additionally, each element can relate to itself, contributing ( 2^n ) possibilities for self-relations. Therefore, the total number of antisymmetric relations is ( 2^{n(n-1)/2} ).
There are four kinds of relations in ordered pairs: one to one (each x value is unique and has a unique y value associated with it) one to many (each x value has multiple possible y values) many to one (each y value has multiple possible x values) many to many (x and y values can be repeated and are not unique) See the related link for more helpful information.
40000 units of what? without some known value to give an equivalence betweem 'units' and mg this cannot be answered.
8 sets of 6 elements would have 96 elements (8X6=96)
Four. Four. Four. Four.
four
There are four elements in NH4F.They are Nitrogen,Fluorine and Hydrogen.
There are four elements: ABC, 1, 3 and 6.
Four elements have temporary names: ununtrium, ununpentium, ununseptium, ununoctium.
Elements with four valency have four electrons in their outermost energy level, which allows them to form four bonds with other atoms. Some examples of elements with four valency include carbon, silicon, and germanium.
2^32 because 2^(n*(n+1)/2) is the no of symmetric relation for n elements in a given set
Ammonium hydroxide is a chemical compound composed of four elements: nitrogen, hydrogen, and oxygen.
I count four elements: calcium, hydrogen, phosphorus, and oxygen.
3
Plane, Train, Boat, Foot, Bike, And many more
It depends on the elements! If two of them are carbon and hydrogen, hundreds of compounds can be made from these elements alone. If the four elements are all noble gases, no new substances can be made from them by chemical reaction.
Carbon, hydrogen, oxygen, and nitrogen are the four key elements that combine in various ways to form molecules in organisms. These elements are crucial for the structure and function of biological molecules such as carbohydrates, lipids, proteins, and nucleic acids.