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TRANSCRIPT
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Sets
By- Sahil Suman
Class- XI-D
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Introduction• The theory of sets was
developed by German mathematician George Cantor.
• A set is a collection of objects.• Objects in the collection are
called elements of the set.• They are named by capital
English alphabet.
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Representation Of Sets • Roster form and Set Builder form
• Roster Form- when the elements are written inside the set It is defined as a set by actually listing its elements, for example, the elements in the set A of letters of the English alphabet can be listed as A={a,b,c,……….,z} separated by comas.
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• Set Builder Form- when we write a set in a straight form using underlying relations that binds them.
• Example- {x | x < 6 and x is a counting number} in the set of all counting numbers less than 6. Note this is the same set as {1,2,3,4,5}.
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Types Of Sets• Empty Sets• Finite Sets• Infinite Sets• Equal Sets• Subsets• Power Sets• Universal Sets
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Empty Sets• A set that contains no members
is called the empty set or null set .
• For example, the set of the months of a year that have fewer than 15 days has no member .Therefore ,it is the empty set. The empty set is written as { } or .
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Finite Sets• A set is finite if it consists of a
definite number of different elements ,i.e., if in counting the different members of the set, the counting process can come to an end.
• For example, if W be the set of people living in a town, then W is finite.
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Infinite Sets• An infinite set is a set that is not
a finite set. Infinite sets may be countable or uncountable. Some examples are:
• The set of all integers, {..., -1, 0, 1, 2, ...}, is a count ably infinite set;
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Equal Sets• Equal sets are sets which have the
same members. Or Two sets a and b are said to be equal if they have the same no of elements.
• For example, if P
={1,2,3},Q={2,1,3},R={3,2,1} then P=Q=R.
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Subsets• Sets which are the part of another set
are called subsets of the original set.• For example, if
A={1,2,3,4} and B ={1,2}then B is a subset of Ait is represented by .
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Power Sets• If ‘A’ is any set then one set of all are subset of set ‘A’ that it
is called a power set.• Example- If S is the set {x, y, z}, then the subsets of S are:• {} (also denoted , the empty set)• {x}• {y}• {z} • {x, y}• {x, z}• {y, z}• {x, y, z}• and hence the power set of S is {{}, {x}, {y}, {z}, {x, y},
{x, z}, {y, z}, {x, y, z}}.
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Universal Sets • A universal set is a set which contains all
objects, including itself. Or• In a group of sets if all the sets are the subset
of a particular bigger set then that bigger set then that bigger set is called the universal set.
• Example- A={12345678} B={1357} C={2468} D={2367} Here A is universal set and is denoted by
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Operation Of Sets• Union of sets• Intersection of sets• Compliments of sets
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Union• The union of two sets would be
wrote as A U B, which is the set of elements that are members of A or B, or both too.
• Using set-builder notation, A U B = {x : x is a member of A
or X is a member of B}
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Intersection• Intersection are written as A ∩ B,
is the set of elements that are in A and B.
• Using set-builder notation, it would look like:
A ∩ B = {x : x is a member of A and x is a member of B}.
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Complements• If A is any set which is the subset of a
given universal set then its complement is the set which contains all the elements that are in
but not in A.• Notation A’ ={1,2,3,4,5} A={1,2,3} A’={2,4}
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Some Other Sets• Disjoint – If A ∩ B = 0, then A and B
are disjoint.• Difference: B – A; all the elements in
B but not in A• Equivalent sets – two sets are
equivalent if n(A) = n(B).
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Venn Diagrams• Venn diagrams are
named after a English logician, John Venn.
• It is a method of visualizing sets using various shapes.
• These diagrams consist of rectangles and circles.
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Thanks
For
Watching