2b:["$","$L2f",null,{"questions":[{"id":1338723,"slug":"express-the-following-decimals-in-the-form-fractextptextq-7010_724652","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n7.010","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 7.010 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=7.010$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{7010}{1000}$
\r\n$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{701}{100}$
\r\nHence, $7.010=\\frac{701}{100}$","marks":1},{"id":1338722,"slug":"express-the-following-decimals-in-the-form-fractextptextq-990_724653","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n9.90","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 9.90 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=9.90$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{990}{100}$
\r\n$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{99}{10}$
\r\nHence, $9.90=\\frac{99}{10}$","marks":1},{"id":1338721,"slug":"give-an-example-of-two-irrational-numbers-whose-quotient-is-an-irrational-number_724654","question":"Give an example of two irrational numbers whose:
\r\nQuotient is an irrational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{2},\\ \\sqrt{3}$ are two irrational numbers and their quotient is an irrational number. That is $\\sqrt{2}\\div\\sqrt{3}=\\frac{\\sqrt{2}}{\\sqrt{3}}$","marks":1},{"id":1338720,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-bigsqrt2-2big2_724655","question":"Examine, whether the following numbers are rational or irrational:$\\big(\\sqrt{2}-2\\big)^2$","mcq":[null,null,null,null],"answer":"","solution":"$$\\big(\\sqrt{2}-2\\big)^2$We have, $\\big(\\sqrt{2}-2\\big)^2$
\r\n$=2+4-4\\sqrt{2}$
\r\n$=6+4\\sqrt{2}$
\r\n6 is a rational number but $4\\sqrt{2}$ is an irrational number.
\r\nThe sum of a rational number and an irrational number is an irrational number, so $\\big(\\sqrt{2}+\\sqrt{4}\\big)^2$ is an irrational number.","marks":1},{"id":1338719,"slug":"in-the-following-equations-find-which-variables-x-y-and-z-etc-represent-rational-or-irrati_724656","question":"In the following equations, find which variables x, y and z etc. represent rational or irrational numbers:
\r\n$y^2=9$","mcq":[null,null,null,null],"answer":"","solution":"We have, $y^2=9=3=\\frac{3}{1}$
\r\ncan be expressed in the form of $=\\frac{ a }{ b }$, so it a rational number.","marks":1},{"id":1338718,"slug":"give-an-example-of-two-irrational-numbers-whose-product-is-a-rational-number_724657","question":"Give an example of two irrational numbers whose:
\r\nProduct is a rational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{8},\\ \\sqrt{2}$ are two irrational numbers and their product is a rational number. That is $\\sqrt{8}\\times\\sqrt{2}=\\sqrt{16}=4$","marks":1},{"id":1338717,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-7478478_724658","question":"Examine, whether the following numbers are rational or irrational:
\r\n7.478478...","mcq":[null,null,null,null],"answer":"","solution":"7.478478... = 7.478, decimal expansion of this number is non-terminating recurring so it is a rational number.","marks":1},{"id":1338716,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt7_724659","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{7}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{7}$ is not a perfect square root so it is an irrational number.","marks":1},{"id":1338715,"slug":"give-an-example-of-two-irrational-numbers-whose-sum-is-a-rational-number_724660","question":"Give an example of two irrational numbers whose:
\r\nSum is a rational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{5},\\ \\sqrt{5}$ are two irrational numbers and their sum is an rational number. That is $\\sqrt{5}+\\big(-\\sqrt{5}\\big)=0.$","marks":1},{"id":1338714,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-2sqrt3_724661","question":"Examine, whether the following numbers are rational or irrational:$2+\\sqrt{3}$","mcq":[null,null,null,null],"answer":"","solution":"$$2+\\sqrt{3}$Here, 2 is a rational number and $\\sqrt{3}$ is an irrational number. So, the sum of a rational and an irrational number is an irrational number.","marks":1},{"id":1338713,"slug":"define-an-irrational-number_724662","question":"Define an irrational number.","mcq":[null,null,null,null],"answer":"","solution":"An irrational number is a real number which can be written as a decimal but not as a fraction i.e. it cannot be expressed as a ratio of integers. It cannot be expressed as terminating or repeating decimal.","marks":1},{"id":1338712,"slug":"express-the-following-decimals-in-the-form-fractextptextq-039_724663","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n0.39","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 0.39 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=0.39$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{39}{100}$
\r\nHence, $0.39=\\frac{39}{100}$","marks":1},{"id":1338711,"slug":"give-an-example-of-two-irrational-numbers-whose-quotient-is-an-rational-number_724664","question":"Give an example of two irrational numbers whose:
\r\nQuotient is an rational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{8},\\ \\sqrt{2}$ are two irrational numbers and their quotient is an rational number. That is $\\frac{\\sqrt{8}}{\\sqrt{2}}=\\frac{2\\sqrt{2}}{\\sqrt{2}}=2$","marks":1},{"id":1338710,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt5-2_724665","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{5}-2$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{5}-2$The difference of an irrational number and a rational number is an irrational number. $\\big(\\sqrt{5}-2\\big)$ is an irrational number.","marks":1},{"id":1338709,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-1101001000100001_724666","question":"Examine, whether the following numbers are rational or irrational:
\r\n1.101001000100001...","mcq":[null,null,null,null],"answer":"","solution":"1.101001000100001..., as decimal expansion of this number is non-terminating, non-recurring so it is an irrational number.","marks":1},{"id":1338708,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-03796_724667","question":"Examine, whether the following numbers are rational or irrational:
\r\n0.3796","mcq":[null,null,null,null],"answer":"","solution":"0.3796, as decimal expansion of this number is terminating, so it is a rational number.","marks":1},{"id":1338707,"slug":"give-an-example-of-two-irrational-numbers-whose-difference-is-a-rational-number_724668","question":"Give an example of two irrational numbers whose:
\r\nDifference is a rational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{2},\\ 1+\\sqrt{2}$
\r\nSo, $1+\\sqrt{2}-\\sqrt{2}=1$
\r\nTherefore, $\\sqrt{2}$ and $1+\\sqrt{2}$ are two irrational numbers and their difference is a rational number.","marks":1},{"id":1338706,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-big2-sqrt2bigbig2sqrt2big_724669","question":"Examine, whether the following numbers are rational or irrational:$\\big(2-\\sqrt{2}\\big)\\big(2+\\sqrt{2}\\big)$","mcq":[null,null,null,null],"answer":"","solution":"$$\\big(2-\\sqrt{2}\\big)\\big(2+\\sqrt{2}\\big)$We have,
\r\n$(2-\\sqrt{2})(2+\\sqrt{2})=(2)^2-(\\sqrt{2})^2\\left[\\right.$ Since, $\\left.(a+b)(a-b)=a^2-b^2\\right]$
\r\n$4-2=\\frac{2}{1}$
\r\nSince, 2 is a rational number.
\r\n$\\big(2-\\sqrt{2}\\big)\\big(2+\\sqrt{2}\\big)$ is a rational number.","marks":1},{"id":1338705,"slug":"give-an-example-of-two-irrational-numbers-whose-product-is-an-irrational-number_724670","question":"Give an example of two irrational numbers whose:
\r\nProduct is an irrational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $\\sqrt{2},\\ \\sqrt{3}$ are two irrational numbers and their product is an irrational number. That is $\\sqrt{2}\\times\\sqrt{3}=\\sqrt{6}$","marks":1},{"id":1338704,"slug":"express-the-following-decimals-in-the-form-fractextptextq-10001_724671","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n1.0001","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 1.0001 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=1.0001$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{10001}{10000}$
\r\nHence, $1.0001=\\frac{10001}{10000}$","marks":1},{"id":1338703,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-bigsqrt2sqrt3big2_724672","question":"Examine, whether the following numbers are rational or irrational:$\\big(\\sqrt{2}+\\sqrt{3}\\big)^2$","mcq":[null,null,null,null],"answer":"","solution":"$$\\big(\\sqrt{2}+\\sqrt{3}\\big)^2$We have,
\r\n$\\big(\\sqrt{2}+\\sqrt{3}\\big)^2=2+2\\sqrt{6}+3=5+\\sqrt{6}$$\\left[\\right.$ Since, $\\left.(a+b)^2=a^2+2 a b+b^2\\right]$
\r\nThe sum of a rational number and an irrational number is an irrational number, so $\\big(\\sqrt{2}+\\sqrt{3}\\big)^2$ is an irrational number.","marks":1},{"id":1338702,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt3sqrt5_724673","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{3}+\\sqrt{5}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{3}$ is not a perfect square and it is an irrational number and $\\sqrt{5}$ is not a perfect square and is an irrational number. The sum of an irrational number and an irrational number is an irrational number, so $\\sqrt{3}+\\sqrt{5}$ is an irrational number.","marks":1},{"id":1338701,"slug":"in-the-following-equations-find-which-variables-x-y-and-z-etc-represent-rational-or-irrati_724674","question":"In the following equations, find which variables x, y and z etc. represent rational or irrational numbers:$\\text{w}^2=27$","mcq":[null,null,null,null],"answer":"","solution":"We have,$\\text{w}^2=27$
\r\nTaking square root on both sides, we get,$\\text{w}=3\\sqrt{3}$
\r\nProduct of a irrational and an irrational is an irrational number. So w is an irrational number.","marks":1},{"id":1338700,"slug":"express-the-following-decimals-in-the-form-fractextptextq-215_724675","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n2.15","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 2.15 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=2.15$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{215}{1000}$
\r\n$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{43}{100}$
\r\nHence, $2.15=\\frac{43}{20}$","marks":1},{"id":1338699,"slug":"find-two-irrational-numbers-lying-between-01-and-012_724676","question":"Find two irrational numbers lying between 0.1 and 0.12.","mcq":[null,null,null,null],"answer":"","solution":"Let
\r\na = 0.1
\r\nb = 0.12
\r\nHere a and b are rational number. So we observe that in first decimal place a and b have same digit. So a < b.
\r\nHence two irrational numbers are 0.1010010001... and 0.11010010001... lying between 0.1 and 0.12.","marks":1},{"id":1338698,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt4_724677","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{4}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{4}$ is a perfect square root so it is an rational number.We have,
\r\n$\\sqrt{4}$ can be expressed in the form of
\r\n$\\frac{\\text{a}}{\\text{b}},$ so it is a rational number. The decimal representation of $\\sqrt{9}$ is 3.0. 3 is a rational number.","marks":1},{"id":1338697,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt3sqrt2_724678","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{3}+\\sqrt{2}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{3}$ is not a perfect square and it is an irrational number and $\\sqrt{2}$ is not a perfect square and is an irrational number. The sum of an irrational number and an irrational number is an irrational number, so $\\sqrt{3}+\\sqrt{2}$ is an irrational number.","marks":1},{"id":1338696,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt23_724679","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{23}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{23}$$\\sqrt{23}=4.79583152331\\ ...$
\r\nAs decimal expansion of this number is non-terminating, non-recurring so it is an irrational number.","marks":1},{"id":1338695,"slug":"give-an-example-of-two-irrational-numbers-whose-difference-is-an-irrational-number_724680","question":"Give an example of two irrational numbers whose:
\r\nDifference is an irrational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $4\\sqrt{3},\\ 3\\sqrt{3}$ are two irrational numbers and their difference is an irrational number. Because $4\\sqrt{3}-3\\sqrt{3}=\\sqrt{3}$ is an irrational number.","marks":1},{"id":1338694,"slug":"examine-whether-the-following-numbers-are-rational-or-irrational-sqrt225_724681","question":"Examine, whether the following numbers are rational or irrational:$\\sqrt{225}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\sqrt{225}$$\\sqrt{225}=15=\\frac{15}{1}$
\r\n$\\sqrt{225}$ is rational number as it can be represented in $\\frac{\\text{p}}{\\text{q}}$ form.","marks":1},{"id":1338693,"slug":"in-the-following-equations-find-which-variables-x-y-and-z-etc-represent-rational-or-irrati_724682","question":"In the following equations, find which variables x, y and z etc. represent rational or irrational numbers:$\\text{t}^2=0.4$","mcq":[null,null,null,null],"answer":"","solution":"We have,$\\text{t}^2=0.4$
\r\nTaking square root on both sides, we get,$\\text{t}=\\sqrt{\\Big(\\frac{4}{10}\\Big)}$
\r\n$\\text{t}=\\frac{2}{\\sqrt{10}}$
\r\nSince, quotient of a rational and an irrational number is irrational number. $t^2 = 0.4$ is an irrational number.","marks":1},{"id":1338692,"slug":"express-the-following-decimals-in-the-form-fractextptextq-0750_724683","question":"Express the following decimals in the form $\\frac{\\text{p}}{\\text{q}}:$
\r\n0.750","mcq":[null,null,null,null],"answer":"","solution":"Given decimal is 0.750 Now we have to convert given decimal number into the $\\frac{\\text{p}}{\\text{q}}$ form Let $\\frac{\\text{p}}{\\text{q}}=0.750$$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{750}{1000}$
\r\n$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{75}{100}$
\r\n$\\Rightarrow\\frac{\\text{p}}{\\text{q}}=\\frac{3}{4}$
\r\nHence, $0.750=\\frac{3}{4}$","marks":1},{"id":1338691,"slug":"give-an-example-of-two-irrational-numbers-whose-sum-is-an-irrational-number_724684","question":"Give an example of two irrational numbers whose:
\r\nSum is an irrational number.","mcq":[null,null,null,null],"answer":"","solution":"Let $2\\sqrt{5},\\ 3\\sqrt{5}$ are two irrational numbers and their sum is an irrational number. That is $2\\sqrt{5}+3\\sqrt{5}=5\\sqrt{5}$","marks":1}],"topicId":4271,"topicName":"1 Mark Question"}]

Maths 1 Mark Question

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