Answer :

(i) $\{2,3,4\} \subset\{1,2,3,4,5\}$

(ii) $\{a, b, c\} \not \subset\{b, c, d\}$

(iii) $\{x$ : $x$ is a student of class XI of your school $\} \subset $ $\{x: x$ is student of your school $\}$

(iv) $\{x: x$ is a circle in the plane $ \} \not \subset \{x: x$ is a circle in the same plane with radius 1 unit $\}$

(v) $\{x: x$ is a triangle in a plane $ \} \not \subset \{x: x $ is a rectangle in the plane $\}$

(vi) $\{x: x$ is an equilateral triangle in a plane $\} \subset \{x: x$ in a triangle in the same plane $\}$

(vii) $\{x: x$ is an even natural number $\} \subset \{x: x$ is an integer $\}$

Answer :

(i) False. Each element of $\{a, b\}$ is also an element of $\{b, c, a\}$.

(ii) True. a, e are two vowels of the English alphabet.

(iii) False. $2 \in\{1,2,3\}$; however, $2 \notin\{1,3,5\}$

(iv) True. Each element of $\{a\}$ is also an element of $\{a, b, c\}$.

(v) False. The elements of $\{a, b, c\}$ are $a, b, c$. Therefore, $\{a\} \subset\{a, b, c\}$

(vi) True $ \{x: x \text{ is an even natural number less than 6 }\} = \{2,4\} \{x:x \text{ is a natural number which divides 36 } \} = \{1,2,3,4,6,9,12,18,36\}$

Answer :

$A=\{1,2,\{3,4\}, 5\}$

(i) The statement $\{3,4\} \subset A$ is incorrect because $3 \in\{3,4\}$; however, $3 \notin A$.

(ii) The statement $\{3,4\} \in A$ is correct because $\{3,4\}$ is an element of $A$.

(iii) The statement $\{\{3,4\}\} \subset A$ is correct because $\{3,4\} \in\{\{3,4\}\}$ and $\{3,4\} \in A$.

(iv) The statement $1 \in A$ is correct because 1 is an element of $A$.

(v) The statement 1ᄃA is incorrect because an element of a set can never be a subset of itself.

(vi) The statement $\{1,2,5\} \subset A$ is correct because each element of $\{1,2,5\}$ is also an element of A.

(vii) The statement $\{1,2,5\} \in A$ is incorrect because $\{1,2,5\}$ is not an element of $A$.

(viii) The statement $\{1,2,3\} \subset A$ is incorrect because $3 \in\{1,2,3\}$; however, $3 \notin A$.

(ix) The statement $\Phi \in A$ is incorrect because $\Phi$ is not an element of $A$.

(x) The statement $\Phi \subset A$ is correct because $\Phi$ is a subset of every set.

(xi) The statement $\{\Phi\} \subset A$ is incorrect because $\Phi \in\{\Phi\}$; however, $\Phi \in A$.

Answer :

(i) The subsets of $\{a\}$ are $\Phi$ and $\{a\}$.

(ii) The subsets of $\{a, b\}$ are $\Phi,\{a\},\{b\}$, and $\{a, b\}$.

(iii) The subsets of $\{1,2,3\}$ are $\Phi,\{1\},\{2\},\{3\},\{1,2\},\{2,3\},\{1,3\}$, and

$\{1,2,3\}$

Answer :

(i) $\{x: x \quad R,-4<x \leq 6\}=(-4,6]$

(ii) $\{x: x \quad R,-12<x<-10\}=(-12,-10)$

(iii) $\{x: \quad R, 0 \leq x<7\}=(0,7]$

(iv) $\{x$ : $x \in$ $R, 3 \leq x \leq 4 \}=[3,4]$

Answer :

(i) $(-3,0)=\{x: x \in R,-3<x<0\}$ (ii) $[6,12]=\{x: x \in R, 6 \leq x \leq 12\}$

(iii) $(6,12]=\{x: x \in R, 6<x \leq 12\}$

(iv) $[-23,5)=\{x: x \in R,-23 \leq x<5\}$

Answer :

(i) For the set of right triangles, the universal set can be the set of triangles or the set of polygons.

(ii)For the set of isosceles triangles, the universal set can be the set of triangles or the set of polygons or the set of two-dimensional figures.

Answer :

(i) It can be seen that $A \subset\{0,1,2,3,4,5,6\}$

$B \subset\{0,1,2,3,4,5,6\}$

However, C $\not \subset$ $\{0,1,2,3,4,5,6\}$

Therefore, the set $\{0,1,2,3,4,5,6\}$ cannot be the universal set for the sets A, B, and C.

(ii) $A \not \subset \phi, B$ $ \not \subset $ $\Phi, C \not \subset \Phi$

Therefore, $\Phi$ cannot be the universal set for the sets A, B, and C.

(iii) $A \subset\{0,1,2,3,4,5,6,7,8,9,10\}$

B $\quad \subset\{0,1,2,3,4,5,6,7,8,9,10\}$

C $\subset\{0,1,2,3,4,5,6,7,8,9,10\}$

Therefore, the set $\{0,1,2,3,4,5,6,7,8,9,10\}$ is the universal set for the sets A, B, and C.

(iv) $A \subset\{1,2,3,4,5,6,7,8\}$

$B \subset\{1,2,3,4,5,6,7,8\}$

However, C $\not \subset$ $\{1,2,3,4,5,6,7,8\}$

Therefore, the set $\{1,2,3,4,5,6,7,8\}$ cannot be the universal set for the sets A, B, and C.