Measure Theory MCQs deal with Onto Function Is Also Known As, If R Is Reflexive Then, Finite Set Are Equivalent To Its, A Relation R Is Called Equivalence If, Every Close Interval Is, Open Interval Is, The Complement Of The Set A, The Set Having Only One Element Is Called, The Inverse Of Bijctive Function Is, Countable Set Either Be Finite Or, The Difference Of The {1,2,3}And{1,2,5} Is The Set, The Number Of Element In Power Set {A,B,C} Are, If Set A Is Subset Of Set B Then AUB Is Equal To, If Set A Is Subset Of Set B Then A Intersection Of B Is Equal to, If Set A And Set B Are Disjoint Sets Then AUB Is Equal To, Every Set Of Is An Improper Subset Of, If A B And B C Then , If F : A → A Defined By F(X) = B For All X €A Then F(X) Is, XRy And X, ARb And A, Set Of Integer Is:

# Measure Theory MCQs

## set of integer is.

A. group w.r.t multiplication

B. finite

C. bounded

D. none

**View Answer**

**D. none**

## If f : A → A defined by f(x) = b for all X €A then f(x) is.

A. Modulus function

B. Identity function

C. Constant function

D. All are possible

**View Answer**

**C. Constant function**

## If A B and B C then.

A. A C

B. C A

C. A C

D. None

**View Answer**

**A. A C**

## Every set of is an improper subset of.

A. Itself

B. Empty

C. Each set

D. None

**View Answer**

**A. Itself**

## If number of element in a set A is 3 and in set B is 2 , then number of binary relation in AxB is.

A. 8

B. 64

C. 128

D. None

**View Answer**

**B. 64**

## If set A and set B are disjoint sets then AUB is equal to.

A. B

B. A

C. Empty set

D. BUA

**View Answer**

**D. BUA**

## If set A is subset of set B then A intersection of B is equalto.

A. B

B. Empty set

C. A

D. NONE

**View Answer**

**C. A**