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Looking for Class 11 Maths Exercise 6.1 solutions? You’re in the right place! This section provides complete and easy-to-follow solutions for all the questions from Exercise 6.1 of Chapter 6 – Linear Inequalities. Based on the latest NCERT guidelines, these solutions help students understand the basics of linear inequalities in one variable and their representation on a number line. Whether you’re practicing from the Class 11 Ch 6 Exercise 6.1 solutions, revising from the NCERT Exemplar Class 11 Maths, or just brushing up on your skills, these answers will strengthen your understanding. Download or view the Class 11 Maths NCERT Solutions Chapter 6 and gain confidence in solving problems related to linear inequalities Class 11 today!
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Exercise 6.1
1. Solve \( 24 {x} < 100 \), when:
(i) \(x\) is a natural number.
(ii) \(x\) is an integer.
(i) \(x\) is a natural number.
(ii) \(x\) is an integer.
Answer
The given inequality is \( 24 {x} < 100 \)
\( 24 {x} < 100 \)
\( =\frac{24 x}{24} < \frac{100}{24} \) [Dividing both side by same positive number]
\(=x < \frac{25}{6}\)
(i) It is given that \( 1,2,3 \), and \(4\) are only natural numbers less than \( \frac{25}{6} \)
Thus, when \( x\) is a natural number, the solutions of the given inequality are \( 1,2,3 \), and \(4 \).
Hence, in this case, the solutions set is \( \{1,2,3,4\} \)
(ii) The integers less than are \( \ldots-3,-2,-1,0,1,2,3,4 \)
Thus, when \(x\) is an integer, the solutions of the given inequality are \( \ldots - 3,-2,-1,0,1,2,3,4 \)
Hence, in this case, the solutions set is \( \{-3,-2,-1,0,1,2,3,4\} \)
2. Solve \( -12 x > 30 \), when
(i) \(x\) is a natural number. (ii) \(x\) is an integer.
(i) \(x\) is a natural number. (ii) \(x\) is an integer.
Answer
The given inequality is \( -12 x > 30 \)
\( -12 x > 30 \)
\( =\frac{-12 x}{-12} > \frac{30}{-12} \) [Dividing both sides by same negative number]
\(=x > -\frac{5}{2}\)
(i) There is no natural number less than \( \left(-\frac{5}{2}\right) \)
Thus, when \(x\) is a natural number, there is no solutions of the given inequality.
(ii) The integers less than \( \left(-\frac{5}{2}\right) \) are \( \ldots-5,-4,-3 \).
Thus, when \(x\) is an integer, the solutions of the given inequality are \( \ldots -5,-4,-3 \).
Hence, in this case, the solutions set is \( \{-5,-4,-3\} \)
3. Solve \( 5 x-3 < 7 \), when
(i) \(x\) is an integer. (ii) \(x\) is a real number.
(i) \(x\) is an integer. (ii) \(x\) is a real number.
Answer
The given inequality is \( 5 {x}-3 < 7 \)
\(5 x-3 < 7\)
\(=5 x-3+3 < 7+3\)
\(=5 x < 10\)
\(=\frac{5 x}{5} < \frac{10}{5}\)
\(=x < 2\)
(i) The integers less than 2 are \( \ldots-4,-3,-2,-1,0,1 \).
Thus, when \(x\) is an integer, the solutions of the given inequality are \(\ldots -4,-3,-2,-1,0.1 \).
Hence, in this case, the solutions set is \( \{-4,-3,-2,-1,0,1\} \)
(ii) When \(x\) is real number, the solutions of the given inequality are given by \( {x} < 2 \). That is, all real number \(x\) which are less than \(2 \).
Thus, the solutions set of the given inequality is \( x \in(-\infty, 2) \)
4. Solve \( 3 x+8 > 2 \), when:
(i) \(x\) is an integer. (ii) \(x\) is a real number.
(i) \(x\) is an integer. (ii) \(x\) is a real number.
Answer
The given inequality is \( 3 x+8 > 2 \)
\(=3 x+8-8 > 2-8\)
\(=3 x > -6\)
\(=\frac{3 x}{3} > \frac{-6}{3}\)
\(=x > -2\)
(i) The integers greater than \(-2\) are \( -1,0,1,2, \ldots \)
Thus, when \(x\) is an integer the solutions of the given inequality are \( -1 , 0,1,2, \ldots \)
Hence, in this case, the solutions set is \( \{-1,0,1,2\} \)
(ii) When \(x\) is real number, the solutions of the given are all real numbers, which are greater than \(-2\)
Thus, in this case the solutions set is \( (-2, \infty) \)
5. Solve the inequalities for real \( x \) : \(4 x+3 < 5 x+7\)
Answer
It is given in the question that,
\(4 x+3 < 5 x+7\)
Subtracting 7 from both the sides,
\(4 x+3-7 < 5 x+7-7\)
\(4 x-4 < 5 x\)
Subtracting \(4 x\) from both the sides,
\(4 x-4-4 x < 5 x-4 x\)
\(x > -4\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers greater than \(-4\)
Thus, \( (-4, \infty) \) is the required solution set.
6. Solve the inequalities for real \( x \) : \(4 x+3 < 5 x+7\)
Answer
It is given in the question that,
\(4 x+3 < 5 x+7\)
Subtracting 7 from both the sides,
\(4 x+3-7 < 5 x+7-7\)
\(4 x-4 < 5 x\)
Subtracting \(4 x\) from both the sides,
\(4 x-4-4 x < 5 x-4 x\)
\(x > -4\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers greater than \(-4 \).
Thus, \( (-4, \infty) \) is the required solution set.
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7. Solve the inequalities for real \( x \) :
\(3(x-1) \leq 2(x-3)\)
Answer
It is given in the question that,
\(3(x-1) \leq 2(x-3)\)
\(3 x-3 \leq 2 x-6\)
Adding 3 to both the sides,
\(3 {x}-3+3 \leq 2 {x}-6+3\)
\(3 {x} \leq 2 {x}-3\)
Subtracting \(2 x\) from both the sides,
\(3 x-2 x \leq 2 x-3-2 x\)
\(x \leq-3\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers less than or equal to \(-3 \).
Thus, \( (-\infty,-3] \) is the required solution set.
8. Solve the inequalities for real \(x\) :
\(3(2-x) \geq 2(1-x)\)
Answer
It is given in the question that,
\(3(2-x) \geq 2(1-x)\)
\(6-3 x \geq 2-2 x\)
Adding \(2 x\) to both the sides,
\(6-3 x+2 x \geq 2-2 x+2 x\)
\(6-x \geq 2\)
Subtracting 6 from both the sides,
\(6-x-6 \geq 2-6\)
\(-x \geq-4\)
\(x \geq 4\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers greater than or equal to \(4 \).
Thus, \( [4, \infty) \) is the required solution set.
9. Solve the inequalities for real \(x\) :
\({x}+\frac{x}{2}+\frac{x}{3} < 11\)
Answer
\({x}+\frac{x}{2}+\frac{x}{3} < 11\)
\(\frac{6 x+3 x+2 x}{6} < 11\)
\(=\frac{11 x}{6} < 11\)
\(=\frac{11 x}{6 \times 11} < \frac{11}{11}\)
\(=\frac{x}{6} < 1\)
\(={x} < 6\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers less than \(6 \).
Thus, \( (-\infty, 6) \) is the required solution set.
10 Solve the inequalities in for real \(x\) :
\(\frac{x}{3} > \frac{x}{2}+1\)
Answer
\(\frac{x}{3} > \frac{x}{2}+1\)
\(=\frac{2 x-3 x}{6} > 1\)
\(=-\frac{x}{6} > 1\)
\(=-x > 6\)
\(=x < -6\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers less than \(-6 \).
Thus, \( (-\infty,-6) \) is the required solution set.
11. Solve the inequalities for real \(x\) :
\(\frac{3(x-2)}{5} \leq \frac{5(2-x)}{3}\)
Answer
\(\frac{3(x-2)}{5} \leq \frac{5(2-x)}{3}\)
Cross - multiplying the denominators, we get:
\(9(x-2) \leq 25(2-x)\)
\(9 x-18 \leq 50-25 x\)
Adding \(25 x\) both the sides,
\(9 x-18+25 x \leq 50-25 x+25 x\)
\(34 x-18 \leq 50\)
Adding \(25 x\) both the sides,
\(34 x-18+18 \leq 50+18\)
\(34 x \leq 68\)
Dividing both sides by 34,
\(=\frac{34 x}{34} \leq \frac{68}{34}\)
\({x} \leq 2\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers less than or equal to \(2 \).
Thus, \( (-\infty, 2] \) is the required solution set.
12. Solve the inequalities for real \(x\) :
\(\frac{1}{2}\left\{\frac{3 x}{5}+4\right\} \geq \frac{1}{3}(x-6)\)
Answer
\(\frac{1}{2}\left(\frac{3 x}{5}+4\right) \geq \frac{1}{3}({x}-6)\)
\(=3\left\{\frac{3 x}{5}+4\right\} \geq 2({x}-6)\)
\(=\frac{9 x}{5}+12 \geq 2 {x}-12\)
\(=12+12 \geq 2 {x}-\frac{9 x}{5}\)
\(=24 \geq \frac{10 x-9 x}{5}\)
\(=24 \geq \frac{x}{5}\)
\(=120 \geq {x}\)
\( \therefore \) Thus, all real numbers \(x \), which are less than or equal to \(120\), are the solutions of the given inequality.
Hence, the solutions set of the given inequality is \( (-\infty, 120) \).
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13. Solve the inequalities in for real \(x\) : \(2(2 x+3)-10 < 6(x-2)\)
Answer
It is given in the question that,
\(2(2 x+3)-10 < 6(x-2)\)
\(4 x+6-10 < 6 x-12\)
\(4 x-4 < 6 x-12\)
\(-4+12 < 6 x-4 x\)
\(8 < 2 x\)
\(4 < x\)
\( \therefore \) The solutions of the given inequality are defined by all the real numbers greater than or equal to \(4 \).
Thus, \( [4,-\infty) \) is the required solution set.
14. Solve the inequalities for real \(x\) : \(37-(3 x+5) \geq 9 x-8(x-3)\)
Answer
We have,
\(37-(3 x+5) \geq 9 x-8(x-3)\)
\(=37-3 x-5 \geq 9 x-8 x+24\)
\(=32-3 x \geq x+24\)
\(=32-24 \geq x+3 x\)
\(=8 \geq 4 x\)
\(=2 \geq x\)
\( \therefore \) All the real numbers of \(x\) which are less than or equal to \(2\) are the solutions of the given inequality
Hence, will be the solution for the given inequality
15. Solve the inequalities for real \(x\) : \(\frac{x}{4} < \frac{(5 x-2)}{3}-\frac{(7 x-3)}{5}\)
Answer
\(\frac{x}{4} < \frac{(5 x-2)}{3}-\frac{(7 x-3)}{5}\)
\( =\frac{x}{4} < \frac{5(5 x-2)-3(7 x-3)}{15}\)
\(=\frac{x}{4} < \frac{25 x-10-21 x+9}{15}\)
\(=\frac{x}{4} < \frac{4 x-1}{15}\)
\(=15 x < 4(4 x-1)\)
\(=15 x < 16 x-4\)
\(=4 < 16 x-15 x\)
\(=4 < x \)
\( \therefore \) All the real numbers of \(x\) which are greater than \(4\) are the solutions of the given inequality
Hence, will be the solution for the given inequality
16. Solve the inequalities for real \( x \) : \(\frac{(2 x-1)}{3} \geq \frac{(3 x-2)}{4}-\frac{(2-x)}{5}\)
Answer
\(\frac{(2 x-1)}{3} \geq \frac{(3 x-2)}{4}-\frac{(2-x)}{5}\)
\(=\frac{(2 x-1)}{3} \geq \frac{5(3 x-2)-4(2-x)}{20}\)
\(=\frac{(2 x-1)}{3} \geq \frac{15 x-10-8+4 x}{20}\)
\(=\frac{(2 x-1)}{3} \geq \frac{19 x-18}{20}\)
\(=20(2 x-1) \geq 3(19 x-18)\)
\(=40 x-20 \geq 57 x-54\)
\(=-20+54 \geq 57 x-40 x\)
\(=34 \geq 17 x\)
\(=2 \geq x\)
\( \therefore \) All the real numbers of \( x \) which are less than or equal to \(2\) are the solutions of the given inequality
Hence, will be the solution for the given inequality
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17. Solve the inequalities and show the graph of the solution in each case on number line:
\(3 x-2 < 2 x+1\)
\(3 x-2 < 2 x+1\)
Answer
We have,
\(3 x-2 < 2 x+1\)
Solving the given inequality, we get:
\(3 x-2 < 2 x+1\)
\(=3 x-2 x < 1+2\)
\(={x} < 3\)
Now, the graphical representation of the solution is as follows:
18. Solve the inequalities and show the graph of the solution in each case on number line:
\(5 x-3 \geq 3 x-5\)
\(5 x-3 \geq 3 x-5\)
Answer
We have,
Solving the given inequality, we get:
\(5 x-3 \geq 3 x-5\)
\(=5 x-3 x \geq-5+3\)
\(=2 x \geq-2\)
\(=\frac{2 x}{2} \geq \frac{-2}{2}\)
\(=x \geq-1\)
Now, the graphical representation of the solution is as follows:
19. Solve the inequalities and show the graph of the solution in each case on number line:
\(3(1-x) < 2(x+4)\)
\(3(1-x) < 2(x+4)\)
Answer
We have,
\(3(1-x) < 2(x+4)\)
Solving the given inequality, we get:
\( 3(1-{x}) < 2({x}+4)\)
\(= 3-3 {x} < 2 {x}+8\)
\(= 3-8 < 2 {x}+3 {x}\)
\(= -5 < 5 {x}\)
\(= \frac{-5}{5} < \frac{5 x}{5}\)
\(= -1 < {x}\)
Now, the graphical representation of the solution is as follows:
20. Solve the inequalities and show the graph of the solution in each case on the number line:
\(\frac{x}{2} \geq \frac{(5 x-2)}{3}-\frac{(7 x-3)}{5}\)
\(\frac{x}{2} \geq \frac{(5 x-2)}{3}-\frac{(7 x-3)}{5}\)
Answer
\(\frac{x}{2} \geq \frac{(5 x-2)}{3}-\frac{(7 x-3)}{5}\)
\(=\frac{x}{2} \geq \frac{5(5 x-2)-3(7 x-3)}{15}\)
\(=\frac{x}{2} \geq \frac{25 x-10-21 x+9}{15}\)
\(=\frac{x}{2} \geq \frac{4 x-1}{15}\)
\(=15 {x} \geq 2(4 {x}-1)\)
\(=15 x \geq 8 x-2\)
\(=15 x-8 x \geq 8 x-2-8 x\)
\(=7 x \geq-2\)
\(=x \geq \frac{-2}{7}\)
Now, the graphical representation of the solution is as follows:
21. Ravi obtained 70 and 75 marks in first two - unit test. Find the minimum marks he should get in the third test to have an average of at least 60 marks.
Answer
Let \(cx\) be marks obtained by Ravi in the third unit test
Since the student should have an average of at least 60 marks.
\( \frac{70+75+x}{3} \geq 60 \)
\( =145+x \geq 180\)
\(=x \geq 180-145\)
\(=x \geq 35 \)
Thus, the student must obtain a minimum of 35 marks to have an average of at least 60 marks.
22. To receive Grade '\( A \)' in a course, one must obtain an average of 90 marks or more in five examinations (each of 100 marks). If summit marks in first four examinations are \( 87,92,94 \) and \(95\), find minimum marks that summit must obtain in fifth examination to get grade '\( A \)' in the course.
Answer
Let \(x\) be the marks obtained by summit in the fifth examination.
In order to receive grade '\( A \)' in the course, she must obtain an averages of 90 marks or more than in five examinations.
Therefore, \( \frac{87+92+94+95}{5} \geq 90 \)
\(=\frac{368+x}{450} \geq 90\)
\(=368+x \geq 450\)
\(=x \geq 450-36\)
\(x\geq 82\)
Thus, summit must obtain greater than or equal to 82 marks in the examination,
23. Find all pairs of consecutive odd positive integers both of which are smaller than 10 such that their sum is more than 11.
Answer
Let \( x \) be the smaller of the two consecutive odd positive integer. Than the other integer is \( {x}+2 \).
Since both the integer is smaller than 10.
\(x+2 < 10\)
\(=x < 10-2\)
\(=x < 8 \quad \ldots\text{(1)}\)
Also, the sum of the two integer is more than 11.
\(=x+(x+2) > 11\)
\(=2 x+2 > 11\)
\(=2 x > 11-2\)
\(=2 x > 9\)
\(=x > \frac{9}{2}\)
\(=x > 4.5\quad\ldots\text{(2)}\)
From (1) and (2), we obtain
Since \(x\) is an odd number, \(x\) can take the value, \(5\) and \(7 \).
Thus, the required possible pairs are \( (5,7) \) and \( (7,9) \)
24. Find all pairs of consecutive even positive integers, both of which are larger than 5 such that their sum is less than 23.
Answer
Let \(x\) be the smaller of the two consecutive even positive integers. Than the other integer is \( x+2 \).
Since both the integer are larger than 5
\(x > 5 \quad\ldots\text{(1)}\)
Also, the sum of the two integer is less than 23
\(x+(x+2) < 23\)
\(=2 x+2 < 23\)
\(=2 x < 23-2\)
\(=2 x < 21\)
\(=x < \frac{21}{2}\)
\(=x < 10.5\quad \ldots(2)\)
From (1) and (2), we obtain \( 5 < x < 10.5 \).
Since \(x\) is the even number, \(x\) can take the value, \(6,8\) and \(10 \).
Thus, the required possible pairs are \( (6,8),(8,10) \) and \( (10,12) \)
25. The longest side of a triangle is 3 times the shortest side and the third side is 2 cm shorter than the longest side. If the perimeter of the triangle is at least 61 cm, find the minimum length of the shortest side.
Answer
Let the length of the shortest side of the triangle be \(x\) cm.
Thus, length of the longest side \( =3 x \ {cm} \)
Length of the side \( (3 {x}-2) \ {cm} \)
Since the perimeter of the triangle is at least 61 cm
\(x \ {cm}+3 x \ {cm}+(3 {x}-2) \ {cm} \geq 61 {~cm}\)
\(=7 {x}-2 \geq 61\)
\(=7 {x} \geq 61+2\)
\(=7 {x} \geq 63\)
\(=\frac{7 x}{7} \geq \frac{63}{7}\)
\(=x \geq 9\)
Thus, the minimum length of the shortest side is 9 cm.
26. A man wants to cut three lengths from a single piece of board of length 91 cm.
The second length is to be 3 cm longer than the shortest and the third length is to be twice as long as the shortest. What are the possible lengths of the shortest board if the third piece is to be at least 5 cm longer than the second?
The second length is to be 3 cm longer than the shortest and the third length is to be twice as long as the shortest. What are the possible lengths of the shortest board if the third piece is to be at least 5 cm longer than the second?
Answer
Let, the length of the shortest piece be \( x {~cm} \). Then, the length of the second piece and the third piece are \( ({x}+3) \ {cm} \) and \(2 x\) cm respectively.
Since the three lengths are to be cut from a single piece of board of length \( 91 {~cm}, {x} \ {cm}+\{{x}+3\}+2 {x} \ {cm} \leq 91 {~cm} \)
\(=4 x+3 \leq 91\)
\(=4 x \leq 91-3\)
\(=4 x \leq 88\)
\(=\frac{4 x}{4} \leq \frac{88}{4}\)
\(=x \leq 22 \quad\ldots (1)\)
Also, the third piece is at least 5 cm longer than the second piece.
\(=2 x \geq(x+3)+5\)
\(=2 x \geq x+8\)
\(=x \geq 8 \quad\ldots (2) \)
From (1) and (2), we obtain
\(8 \leq x \leq 22\)
Thus, the possible length of the shortest board is greater than or equal to 8 cm but less than or equal to
