Mean of n observations x1, x2, ..., xn, is . If an observation , is replaced by xq', then the new mean is
D.
We have,
...(i)
If xq is replaced by xq', then new total will be
New mean will be,
From equation (i), we get
On set A = {1, 2, 3}, relations R and S are given by
R = {(1, 1), (2, 2), (3, 3), (1, 2), (2, 1)},
S = {(1, 19, (2, 2), (3, 3), (1, 3), (3, 1)}.
Then,
R S is an equivalence relation
R S is reflexive and transitive but not symmetric
R S is reflexive and symmetric but not transitive
R S is symmetric and transitive but not reflexive
If the function f : , then f is
one-one but not onto
onto but not one-one
neither one-one nor onto
both one-one and onto
Let f: then
f is one - to - one
f is onto
f is one - to - one but not onto
f is onto but not one - to - one
A relation p on the set of real number R is defined as {xy: xy > 0}. Then, which of the following is/are true?
is reflexive and symmetric
is symmetric but not reflexive
is symmetric and transitive
is an equivalence relation
The function f(x) = x2 + bx + c, where b and c real constants, describes
one - to - one mapping
onto mapping
not one-to-one but onto mapping
neither one-to-one nor onto mapping
For any two real numbers we define , if and only if = 1. The relation R is
reflexive but not transitive
symmetric but not reflexive
both reflexive and symmetric but not transitive
an equivalence relation
We define a binary relation on the set of all 3 x 3 real matrices as A B,if and only if there exist invertible matrices P and Q such that B = PAQ-1 .The binary relation is
neither reflexive nor symmetric
reflexive and symmetric but not transitive
symmetric and transitive but not reflexive
an equivalence relation
In the set of all 3 x 3 real matrices a relation is defined as follows. A matrix A is related to a matrix B, if and only if there is a non-singular 3 x 3 matrix P, such that B = P-1AP. This relation is
reflexive, symmetric but not transitive
reflexive, transitive but not symmetric
symmetric, transitive but not reflexive
an equivalence relation