30:["$","$L34",null,{"questions":[{"id":1439198,"slug":"the-mean-of-100-items-was-found-to-be-64-later-on-it-was-discovered-that-two-items-were-mi_333333","question":"The mean of $100$ items was found to be $64$. Later on it was discovered that two items were misread as $26$ and $9$ instead of $36$ and $90$ respectively. The correct mean is:","mcq":["$$64.91$","$$65.31$","$$64.61$","$$64.86$"],"answer":"A","solution":"

Mean of $100$ items $= 64$
\r\nSum of $100$ items $= 64 × 100 = 6400$
\r\nCorrect sum $= (6400 + 36 + 90 - 26 - 9) = 6491$
\r\nCorrect mean $=\\frac{6491}{100}=64.91$

\r\n","marks":1},{"id":1439197,"slug":"a-grouped-frequency-distribution-table-with-classes-of-equal-sizes-using-63-72-72-included_333334","question":"A grouped frequency distribution table with classes of equal sizes using $63-72 (72$ included$)$ as one of the class is constructed for the following data $30, 32, 45, 54, 74, 78, 108, 112, 66, 76, 88, 40, 14, 20, 15, 35, 44, 66, 75, 84, 95, 96, 102, 110, 88, 74, 112, 14, 34, 44.$ How many classes can we have$?$","mcq":["$$12$","$$11$","$$10$","$$9$"],"answer":"C","solution":"

The given frequency varies from $14$ to $112.$
\r\nSo the class intervals are:
\r\n$13-22, 23-32, 33-42, 43-52, 53-62, 63-72, 73-82, 83-92, 93-102, 103-112.$
\r\nNumber of class interval $= 10.$

\r\n","marks":1},{"id":1439196,"slug":"the-class-mark-of-the-class-90-120-is_333335","question":"The class mark of the class $90-120$ is:","mcq":["$$120$","$$115$","$$90$","$$105$"],"answer":"D","solution":"

Class mark $=\\frac{190+120}{2}=\\frac{210}{2}=105$

\r\n","marks":1},{"id":1439195,"slug":"the-mean-of-100-items-was-found-to-be-64-later-on-it-was-discovered-that-two-items-were-mi_333336","question":"The mean of $100$ items was found to be $64.$ Later on it was discovered that two items were misread as $26$ and $9$ instead of $36$ and $90$ respectively. The correct mean is:","mcq":["$$64.86$","$$65.31$","$$64.91$","$$64.61$"],"answer":"C","solution":"

Calculated sum $= 64 × 100 = 6400$
\r\nCorrect sum of these numbers
\r\n$= 6400 + ($sum of correct term$) - ($sum of incorrect term$)$
\r\n$= 6400 + (36 + 90) - (26 + 9)$
\r\n$= 6400 + 36 + 90 - 26 - 9$
\r\n$= 6491$
\r\nCorrect mean $=\\frac{6491}{100}$
\r\n$=64.91$

\r\n","marks":1},{"id":1439194,"slug":"for-which-set-of-data-does-the-median-equal-the-mode_333337","question":"For which set of data does the median equal the mode$?$","mcq":["$$3, 3, 4$","$$3, 3, 4, 5$","$$3, 4, 5, 6, 6$","$$3, 3, 4, 5, 6$"],"answer":"A","solution":"

The median is the middle score for a set of data that has been arranged in ascending or descending order of magnitude.
\r\nMode in a list of numbers refers to the integers that occur most number of times.
\r\nFor list $3, 3, 4$
\r\nBoth median and mode are $3.$

\r\n","marks":1},{"id":1439193,"slug":"in-a-grouped-frequency-distribution-the-class-intervals-are-1-20-21-40-41-60-then-the-clas_333338","question":"In a grouped frequency distribution, the class intervals are $1-20, 21-40, 41-60,....$ then the class width is:","mcq":["$$19$","$$20$","$$30$","$$10$"],"answer":"B","solution":"

The class width is the difference between the upper- or lower-class limits of consecutive classes.
\r\nIn this case, class width equals to the difference between the lower limits of the first two classes.
\r\nLet, W be the class width
\r\n$W = 21 - 1 = 20$
\r\nSo class width is $20$

\r\n","marks":1},{"id":1439192,"slug":"in-a-frequency-distribution-ogives-are-graphical-representation-of_333339","question":"In a frequency distribution, ogives are graphical representation of:","mcq":["Cumulative frequency.","Relative frequency.","Frequency.","Raw data."],"answer":"A","solution":"An o$-$give $($oh$-$jive$),$ sometimes called a cumulative frequency polygon, is a type of frequency polygon that shows cumulative frequencies.
\r\nAn o$-$give graph plots cumulative frequency on the $y-$axis and class boundaries along the $x-$axis.","marks":1},{"id":1439191,"slug":"for-the-frequency-distribution-given-below-the-adjusted-frequency-for-the-class-25-45-is-c_333340","question":"$35","mcq":["$$2$","$$5$","$$3$","$$6$"],"answer":"A","solution":"

Adjusted frequency for the class $25-45$ is
\r\n$10 - 8 = 2$

\r\n","marks":1},{"id":1439190,"slug":"median-of-the-following-observations-arranged-in-an-ascending-order-is-22-if-the-numbers-a_333341","question":"Median of the following observations, arranged in an ascending order is $22.$ If the numbers are $8, 11, 13, 15, x + 1, x + 3, 30, 35, 40, 43.$ Then, the value of $x$ is:","mcq":["$$20$","$$16$","$$18$","$$19$"],"answer":"A","solution":"

The median is the middle score for a set of data that has been arranged in ascending or descending order of magnitude.
\r\nFor even number of observations, median is calculated as average of two middle number
\r\n$22=\\frac{(\\text{x}+1)+(\\text{x}+3)}{2}$
\r\n$44=2\\text{x}+4$
\r\n$40=2\\text{x}$
\r\n$\\text{x}=20$

\r\n","marks":1},{"id":1439189,"slug":"let-l-be-the-lower-class-boundry-of-a-class-in-a-frequency-distribution-and-m-be-the-midpo_333342","question":"Let $L$ be the lower class boundry of a class in a frequency distribution and m be the midpoint of the class. Which one of the following is the upper class boundry of the class?","mcq":["$$\\text{m}+\\frac{(\\text{m}+\\text{L})}{2}$","$$\\text{L}+\\frac{\\text{m}+\\text{L}}{2}$","$$2\\text{m}-\\text{L}$","$$\\text{m}-2\\text{L}$"],"answer":"C","solution":"

Mid value $=\\frac{\\text{Lower}\\ \\text{limit}+\\text{Upper}\\ \\text{limit}}{2}$
\r\n$\\Rightarrow\\text{m}=2\\text{m}-\\text{L}$
\r\n$\\therefore$ Upper class boundry of the class $= 2m - L.$

\r\n","marks":1},{"id":1439188,"slug":"class-size-of-a-distribution-having-28-34-40-46-and-52-as-its-class-marks-is_333343","question":"Class size of a distribution having $28, 34, 40, 46$ and $52$ as its class marks is:","mcq":["$$6$","$$5$","$$4$","$$3$"],"answer":"A","solution":"

Class size is the difference between two consecutive values of the class mark.
\r\nHere, the difference between two consecutive class mark is $6.$
\r\ni.e., $34 - 28 = 6$

\r\n","marks":1},{"id":1439187,"slug":"if-the-mode-of-the-data-is-45-and-the-median-is-33-then-the-mean-is_333344","question":"If the mode of the data is $45$ and the median is $33,$ then the mean is:","mcq":["$$33$","$$27$","None of these","$$30$"],"answer":"B","solution":"

Since, $3$ Median $= 2$ Mean $+$ Mode
\r\n$\\therefore 3 × 33 = 2$ Mean $+ 45$
\r\n$⇒ 2$ Mean $= 99 - 45$
\r\n$⇒ 2$ Mean $= 54$
\r\n$⇒$ Mean $= 27$

\r\n","marks":1},{"id":1439186,"slug":"the-mean-of-30-observations-is-12-if-25-is-subtracted-from-the-sum-of-observations-then-re_333345","question":"The mean of $30$ observations is $12.$ If $25$ is subtracted from the sum of observations, then remaining sum is:","mcq":["$$385$","$$335$","$$365$","$$375$"],"answer":"B","solution":"

Let sum of all the $30$ observations be $x.$
\r\nThe mean is equal to the sum of all the values in the data set divided by the number of values in the data set.
\r\n$\\frac{\\text{x}}{30}=12$
\r\n$\\text{x}=360$
\r\n$360-25=335$

\r\n","marks":1},{"id":1439185,"slug":"in-a-histogram-the-class-intervals-or-the-group-are-taken-along_333346","question":"In a histogram the class intervals or the group are taken along:","mcq":["$$Y-$axis.","$$X-$axis.","Both of $X-$axis and $Y-$axis.","In between $X$ and $Y$ axis."],"answer":"B","solution":"

In a histogram the class intervals or the groups are taken along the horizontal axis or $X−$axis.

\r\n","marks":1},{"id":1439184,"slug":"the-given-cumulative-frequency-distribution-shows-the-class-intervals-and-their-correspond_333347","question":"$36","mcq":["$$11$","$$20$","$$5$","$$9$"],"answer":"D","solution":"

A cumulative frequency distribution is the sum of the class and all classes below it in a frequency distribution.
\r\nSubtract the previous cumulative frequency (c.f.) from the cumulative frequency of the current class.
\r\nSo frequency of the class interval $20 - 30$ is $14 - 5 = 9$

\r\n","marks":1},{"id":1439183,"slug":"let-l-be-the-lower-class-limit-of-a-class-interval-in-a-frequency-distribution-and-m-be-th_333348","question":"Let $l$ be the lower class limit of a class-interval in a frequency distribution and m be the mid point of the class. Then, the upper class limit of the class is:","mcq":["$$\\text{m}+\\frac{\\text{l+m}}{2}$","$$\\text{l}+\\frac{\\text{m+l}}{2}$","$$2\\text{m}-1$","$$\\text{m}-2\\text{l}$"],"answer":"C","solution":"

Given that, the lower class limit of a class-interval is l and the mid-point of the class is $m.$ Let $u$ be the upper class limit of the class-interval.
\r\nTherefore, we have
\r\n$\\text{m}=\\frac{\\text{l+u}}{2}$
\r\n$⇒ l + u = 2m$
\r\n$⇒ u = 2m - l$
\r\nThus the upper class limit of the class is $(2m - l).$
\r\nHence, the correct choice is $(c).$

\r\n","marks":1},{"id":1439182,"slug":"in-a-frequency-distribution-the-mid-value-of-a-class-is-10-and-the-width-of-the-class-is-6_333349","question":"In a frequency distribution, the mid value of a class is $10$ and the width of the class is $6.$ The lower limit of the class is:","mcq":["$$8$","$$12$","$$6$","$$7$"],"answer":"D","solution":"

Mid-value $= 10$
\r\n$\\Rightarrow\\frac{\\text{Upper limit + Lower limit }}{2}=10$
\r\n$⇒$ Upper limit $+$ Lower limit $= 20 .....(i)$
\r\nAlso, Class length $= 6$
\r\n$⇒$ Upper limit $-$ lower limit $= 6 .....(ii)$
\r\nSubtracting $(ii)$ from $(i),$ we get
\r\n$2 ×$ Lower limit $= 14$
\r\n$⇒$ Lower limit $= 7$

\r\n","marks":1},{"id":1439181,"slug":"the-class-marks-of-a-frequency-distribution-are-15-20-25-30-the-class-corresponding-to-the_333350","question":"The class marks of a frequency distribution are $15, 20, 25, 30 ...., .$ The class corresponding to the class mark $20$ is:","mcq":["$$12.5-17.5$","$$17.5-22.5$","$$18.5-21.5$","$$19.5-20.5$"],"answer":"B","solution":"

We are given frequency distribution $15, 20, 25, 30 ....$
\r\nClass size $= 20 - 15 = 5$
\r\nClass marks $= 20$
\r\nLower limit $=\\Big(20-\\frac{5}{2}\\Big)$
\r\n$=\\frac{35}{2}=17.5$
\r\nUpper limit $=\\Big(20+\\frac{5}{2}\\Big)$
\r\n$=\\frac{45}{2}=22.5$
\r\nThus, the required class is $17.5-22.5.$

\r\n","marks":1},{"id":1439180,"slug":"the-class-mark-of-the-class-130-150-is_333351","question":"The class-mark of the class $130-150$ is:","mcq":["$$135$","$$145$","$$140$","$$130$"],"answer":"C","solution":"

Class mark $=\\frac{130+150}{2}=\\frac{280}{2}=140$

\r\n","marks":1},{"id":1439179,"slug":"the-traffic-police-recorded-the-speed-bigtext-in-textkmtexthbig-of-10-motorists-as-48-52-5_333352","question":"The traffic police recorded the speed $\\big(\\text{ in }\\frac{\\text{km}}{\\text{h}}\\big)$ of $10$ motorists as $48, 52, 57, 55, 42, 39, 60, 49, 53$ and $47.$ Later an error in recording instrument was found. If the instrument has recorded the speed $\\frac{5\\text{km}}{\\text{h}}$ less in each case, then the correct average speed of the motorists is:","mcq":["$$\\frac{50.2\\text{km}}{\\text{h}}$","$$\\frac{54.5\\text{km}}{\\text{h}}$","$$\\frac{55.2\\text{km}}{\\text{h}}$","$$\\frac{52.5\\text{km}}{\\text{h}}$"],"answer":"C","solution":"

Sum of all the recorded speeds is
\r\n$48 + 52 + 57 + 55 + 42 + 39 + 60 + 49 + 53 + 47 = 502$
\r\nBecause of the error, $\\frac{5\\text{km}}{\\text{h}}$ in each case
\r\nThe sum increases by $50$ i.e., $552$
\r\nSo the average speed of $10$ vehicle is $\\frac{55.2\\text{km}}{\\text{h}}$

\r\n","marks":1},{"id":1439178,"slug":"mode-of-the-data-15-17-15-19-14-18-15-14-16-15-14-20-19-14-15-is_333353","question":"Mode of the data $15, 17, 15, 19, 14, 18, 15, 14, 16, 15, 14, 20, 19, 14, 15$ is:","mcq":["$$14$","$$15$","$$16$","$$17$"],"answer":"B","solution":"

Arranging the marks in an ascending order,
\r\nWe have:
\r\n$14, 14, 14, 14, 15, 15, 15, 15, 16, 17, 18, 19, 19, 20$
\r\nClearly, $15$ occurs maximum number of times.
\r\nHence, mode $= 15$

\r\n","marks":1},{"id":1439177,"slug":"given-the-class-intervals-1-10-11-20-21-30-then-20-is-considered-in-class_333354","question":"Given the class intervals $1-10, 11-20, 21-30, …,$ then $20$ is considered in class:","mcq":["$$15-25$","$$21-30$","$$11-20$","$$11-30$"],"answer":"C","solution":"

In a discontinuous class both lower and upper limits belong to that particular class.

\r\n","marks":1},{"id":1439176,"slug":"a-data-is-such-that-its-maximum-value-is-75-and-range-is-20-then-the-minimum-value-is_333355","question":"A data is such that its maximum value is $75$ and range is $20,$ then the minimum value is:","mcq":["$$95$","$$20$","$$75$","$$55$"],"answer":"D","solution":"Difference between the maximum & minimum value to the observations is called as range.
\r\nLet, minimum value be $'x'$
\r\n$75 - x = 20$
\r\n$So, x = 55$","marks":1},{"id":1439175,"slug":"write-the-correct-answer-in-the-following-if-bartextx-represents-the-mean-of-n-observation_333356","question":"Write the correct answer in the following: If $\\bar{\\text{x}}$ represents the mean of n observations $x_1, x_2, \\ldots x_n$ then value of $\\sum\\limits_{\\text{i}=1}^\\text {b} \\text{x}_\\text{i}-\\bar{\\text{x}}$ is:","mcq":["$$-1$","$$0$","$$1$","$$n - 1$"],"answer":"B","solution":"

We know that algebraic sun of deviations from mean is zero.
\r\n$\\sum\\limits_{\\text{a}=1}^\\text{b} (\\text{x}_\\text{t}-\\bar{\\text{x}})=(\\text{x}_1-\\bar{\\text{x}})+(\\text{x}_2-\\bar{\\text{x}})+(\\text{x}_3-\\bar{\\text{x}})+\\ ...\\ +(\\text{x}_\\text{n}-\\bar{\\text{x}})$
\r\n$= (\\text{x}_1+\\text{x}_2+\\text{x}_3+... +\\text{x}_\\text{n})- \\text{n}\\bar{\\text{x}}$
\r\n$\\Rightarrow\\sum\\limits_{\\text{t}-1}^\\text{b}\\text{x}_\\text{i}-\\text{n}\\bar{\\text{x}}=\\text{n}\\bar{\\text{x}}-\\text{n}\\bar{\\text{x}}=0$ $\\bigg[\\because\\sum\\limits_{\\text{i}=1}^\\text{n} \\text{x}_\\text{i}=\\text{n}\\bar{\\text{x}}\\bigg]$
\r\nHence, $(b)$ is correct answer.

\r\n","marks":1},{"id":1439174,"slug":"a-set-of-data-consists-of-six-numbers-7-8-8-9-9-and-x-the-difference-between-the-modes-whe_333357","question":"A set of data consists of six numbers: $7, 8, 8, 9, 9,$ and $x.$ The difference between the modes when $x = 9$ and $x = 8$ is:","mcq":["$$1$","$$2$","$$4$","$$3$"],"answer":"A","solution":"

The mode in a list of numbers refers to the integers that occur most number of times.
\r\nIn the given list both $8$ and $9$ occur two times.
\r\nSo the value of $x$ will decide the mode
\r\nIf $x = 8,$ then the mode will be $8$
\r\nIf $x = 9,$ then the mode will be $9$
\r\nHence, the difference between the two modes is $1.$

\r\n","marks":1},{"id":1439173,"slug":"which-of-the-following-is-not-a-measure-of-central-tendency_333358","question":"Which of the following is not a measure of central tendency?","mcq":["Standard deviation","Mode","Median","Arithmetic mean"],"answer":"A","solution":"The most common measures of central tendency are mean, median and mode.
\r\nStandard deviation is a measure of the dispersion of a set of data from its mean.
\r\nIt is calculated as the square root of variance.
\r\nHence standard deviation is not a measure of central tendency.","marks":1},{"id":1439172,"slug":"mode-is_333359","question":"Mode is:","mcq":["Least frequent value.","Middle most value.","Most frequent value.","None of these."],"answer":"C","solution":"Most Frequent value is called mode.","marks":1},{"id":1439171,"slug":"if-each-observation-of-the-data-is-decreased-by-8-then-their-mean_333360","question":"If each observation of the data is decreased by $8$ then their mean:","mcq":["remains the same.","is decreased by $8.$","is increased by $5.$","becomes $8$ times the original mean."],"answer":"B","solution":"

If each observation of the data is decreased by $8$ then their mean is also decreased by $8.$

\r\n","marks":1},{"id":1439170,"slug":"less-than-cumulative-frequency-table-for-a-given-data-is-as-follows-then-the-frequency-of-_333361","question":"$37","mcq":["$$20$","$$14$","$$34$","$$55$"],"answer":"A","solution":"$38","marks":1},{"id":1439169,"slug":"if-for-the-set-of-observations-4-7-x-8-9-10-the-mean-is-8-then-x-is-equal-to_333362","question":"If, for the set of observations $4, 7, x, 8, 9, 10$ the mean is $8,$ then $x$ is equal to:","mcq":["$$12$","$$8$","$$9$","$$10$"],"answer":"D","solution":"

The mean is equal to the sum of all the values in the data set divided by the number of values in the data set.
\r\n$\\frac{4+7+\\text{x}+8+9+10}{5}=8$
\r\n$\\frac{(38+\\text{x})}{6}=8$
\r\n$\\text{x}=48-38=10$

\r\n","marks":1},{"id":1439168,"slug":"find-out-the-mode-of-the-following-5-4-3-5-6-6-6-5-4-5-5-3-2-1_333363","question":"Find out the mode of the following: $5, 4, 3, 5, 6, 6, 6, 5, 4, 5, 5, 3, 2, 1.$","mcq":["$$4$","$$5$","$$6$","$$3$"],"answer":"B","solution":"

The observation which occurs maximum number of times is called as mode of the given data.

\r\n","marks":1},{"id":1439167,"slug":"if-the-mean-of-five-observations-x-x-4-x-6-and-x-8-is-11-then-the-value-of-x-is_333364","question":"If the mean of five observations $x, x + 4, x + 6$ and $x + 8$ is $11$ then the value of $x$ is:","mcq":["$$5$","$$6$","$$7$","$$8$"],"answer":"C","solution":"

Mean of 5 observations $= 11$
\r\n$\\text{Mean}=\\frac{\\text{Sum of all observations}}{\\text{Total number of observation}}$
\r\n$\\Rightarrow11=\\frac{\\text{x}+\\text{x}+2+\\text{x}+4+\\text{x}+6+\\text{x}+8}{5}$
\r\n$\\Rightarrow11=\\frac{5\\text{x}+20}{5}$
\r\n$\\Rightarrow55=5\\text{x}+20$
\r\n$\\Rightarrow5\\text{x}=35$
\r\n$\\Rightarrow\\text{x}=7$

\r\n","marks":1},{"id":1439166,"slug":"which-of-the-following-is-not-a-measure-of-central-tendency_333365","question":"Which of the following is not a measure of central tendency?","mcq":["Standard deviation.","Mean.","Median.","Mode."],"answer":"A","solution":"A measure of central tendency is a single value that attempts to describe a set of data.
\r\nMean, median and mode are the measures of central tendency.
\r\nStandard deviation is not the measure of central tendency.","marks":1},{"id":1439165,"slug":"if-the-mean-of-x-and-1textx-is-m-then-the-mean-of-x3-and-frac1textx3-is_333366","question":"If the mean of $x$ and $\\frac{1}{\\text{x}}$ is $M,$ then the mean of $x^3$ and $\\frac{1}{\\text{x}^3}$ is:","mcq":["$$3M^3 + 4M$","$$4M^3 - 3M$","$$3M^3 - 4M$","$$4M^3 + 3M$"],"answer":"B","solution":"

Given $\\bigg(\\frac{\\text{x}+\\frac{1}{\\text{x}}}{2}\\bigg)^2=(\\text{M})^2$
\r\nTaking cube on both sides
\r\n$\\bigg(\\frac{\\text{x}+\\frac{1}{\\text{x}}}{2}\\bigg)^3=(\\text{M})^3$
\r\n$\\bigg(\\text{x}+{\\frac{1}{\\text{x}}}\\bigg)^3=(2\\text{M})^3$
\r\n$\\bigg(\\text{x}^2+3\\text{x}\\times{\\frac{1}{\\text{x}}}\\Big(\\text{x}+\\frac{1}{\\text{x}}\\Big)+\\frac{1}{\\text{x}^3}\\bigg)=(2\\text{M})^3$
\r\n$\\bigg(\\text{x}^3+{\\frac{1}{\\text{x}^3}}\\bigg)={8\\text{M}^3-3}\\Big(\\text{x}+\\frac{1}{\\text{x}}\\Big)$
\r\nDivide by $2$ on both sides to get mean
\r\n$\\frac{\\bigg(\\text{x}^3+{\\frac{1}{\\text{x}^3}}\\bigg)}{2}={4\\text{M}^3-\\frac{3}{2}}\\Big(\\text{x}+\\frac{1}{\\text{x}}\\Big)$
\r\n$\\frac{\\bigg(\\text{x}^3+{\\frac{1}{\\text{x}^3}}\\bigg)}{2}={4\\text{M}^3}-{3\\text{M}}$

\r\n","marks":1},{"id":1439164,"slug":"a-die-is-thrown-1000-times-and-the-outcomes-were-recorded-as-follows-outcome-1-2-3-4-5-6-f_333367","question":"$39","mcq":["$$\\frac{9}{50}$","$$\\frac{4}{25}$","$$\\frac{7}{25}$","$$\\frac{3}{20}$"],"answer":"D","solution":"

$\\frac{150}{1000}=\\frac{3}{20}$

\r\n","marks":1},{"id":1439163,"slug":"the-class-mark-of-the-class-100-200-is_333368","question":"The class mark of the class $100-200$ is:","mcq":["$$100$","$$110$","$$115$","$$120$"],"answer":"B","solution":"

Class mark $=\\frac{\\text{Upper}\\ \\text{limit}+\\text{Lower}\\ \\text{limit}}{2}$
\r\n$=\\frac{120+100}{2}$
\r\n$=110$

\r\n","marks":1},{"id":1439162,"slug":"write-the-correct-answer-in-the-following-a-grouped-frequency-table-with-class-intervals-o_333369","question":"Write the correct answer in the following: A grouped frequency table with class intervals of equal sizes using $250-270 (270$ not included in this interval$)$ as one of the class interval is constructed for the following data: $268, 220, 368, 258, 242, 310, 272, 342, 310, 290, 300, 320, 319, 304, 402, 318, 406, 292, 354, 278, 210, 240, 330, 316, 406, 215, 258, 236.$ The frequency of the class $310-330$ is:","mcq":["$$4$","$$5$","$$6$","$$7$"],"answer":"C","solution":"

The observation corresponding to class $310–330 (330$ not included in this interval$)$ are $310, 310, 320, 319, 318, 316,$ i.e., $6$ observations.

\r\n","marks":1},{"id":1439161,"slug":"the-number-of-times-a-particular-item-occurs-in-a-given-data-is-called-its_333370","question":"The number of times a particular item occurs in a given data is called its:","mcq":["Variation.","Frequency.","Cumulative frequency.","Class-size."],"answer":"B","solution":"

The number of times a particular item occurs in a given data is called the frequency of the item. Hence, the correct choice is $(b).$

\r\n","marks":1},{"id":1439160,"slug":"the-smallest-of-three-consecutive-even-integers-is-32-then-the-mean-of-the-three-integers-_333371","question":"The smallest of three consecutive even integers is $32.$ Then, the mean of the three integers is:","mcq":["$$34$","$$35$","$$33$","$$36$"],"answer":"A","solution":"

$32$ is the smallest even integer.
\r\nSo three consecutive even integers are $32, 34$ and $36$
\r\nThe mean is equal to the sum of all the values in the data set divided by the number of values in the data set.
\r\n$\\frac{32+34+36}{3}=34$

\r\n","marks":1},{"id":1439159,"slug":"the-following-marks-were-obtained-by-the-students-in-a-test-81-72-90-90-86-85-92-70-71-83-_333372","question":"The following marks were obtained by the students in a test: $81, 72, 90, 90, 86, 85, 92, 70, 71, 83, 89, 95, 85, 79, 62$ The range of the marks is:","mcq":["$$9$","$$17$","$$27$","$$33$"],"answer":"D","solution":"

The marks obtained by the students are $81, 72, 90, 90, 86, 85, 92, 70, 71, 83, 89, 95, 85, 79$ and $62.$
\r\nThe highest and lowest marks are $95$ and $62$ respectively. Therefore, the range of marks is
\r\n$95 - 62$
\r\n$= 33$
\r\nHence, the correct option is $(d).$

\r\n","marks":1},{"id":1439158,"slug":"write-the-correct-answer-in-the-following-the-range-of-the-data-25-18-20-22-16-6-17-15-12-_333373","question":"Write the correct answer in the following: The range of the data: $25, 18, 20, 22, 16, 6, 17, 15, 12, 30, 32, 10, 19, 8, 11, 20$ is:","mcq":["$$10$","$$15$","$$18$","$$26$"],"answer":"D","solution":"

Maximum value of the variate $= 32$
\r\nAnd the minimum value of the variate $= 6$
\r\nRange $=$ Maximum value of the variate-Minimum value of the variate $= 32 - 6 = 26$

\r\n","marks":1},{"id":1439157,"slug":"the-mean-weight-ofa-six-boys-in-a-group-is-48kg-the-individual-weights-of-five-of-them-are_333374","question":"The mean weight ofa six boys in a group is $48\\ kg$. The individual weights of five of them are $51\\ kg, 45\\ kg, 49\\ kg, 46\\ kg$ and $44\\ kg$. The weight of the $6^{th}$ boy is:","mcq":["$$52\\ kg.$","$$52.8\\ kg.$","$$53\\ kg.$","$$47\\ kg.$"],"answer":"C","solution":"Let the weight of the $6^{th}$ boy be $x \\ kg.$
\r\n$\\frac{51+45+49+46+44+\\text{x}}{6}=48$
\r\n$\\Rightarrow51+45+49+46+44+\\text{x}=48\\times6$
\r\n$\\Rightarrow235+\\text{x}=288$
\r\n$\\Rightarrow\\text{x}=53\\text{ kg}$
\r\nSo, the weight of the $6^{th}$ boy is $53\\ kg.$","marks":1},{"id":1439156,"slug":"for-a-given-data-the-difference-between-the-maximum-and-minimum-observation-is-known-as-it_333375","question":"For a given data, the difference between the maximum and minimum observation is known as its.","mcq":["Class limit","Class mark","Class","Range"],"answer":"D","solution":"Difference between maximum and minimum value of observation is called as range.","marks":1},{"id":1439155,"slug":"the-algebraic-sum-of-the-deviations-of-a-set-of-n-values-from-their-mean-is_333376","question":"The algebraic sum of the deviations of a set of $n$ values from their mean is:","mcq":["$$0$","$$n - 1$","$$n$","$$n + 1$"],"answer":"A","solution":"

if is the mean of n observations $x_1, x_2, x_3, x_4 \\ldots x_n$
\r\nthen algebraic sum of deviations $=\\sum\\limits^\\text{n}_{\\text{i}=0}\\Big(\\text{x}_\\text{i}-{\\overline{\\text{X}}}\\Big)$
\r\n$=\\sum\\limits^\\text{n}_{\\text{i}=0}\\text{x}_\\text{i}-\\text{n}{\\overline{\\text{X}}}$
\r\n$=\\text{n}\\bigg(\\frac{\\sum^\\text{n}_{\\text{i}=0}\\text{x}_\\text{i}}{\\text{n}}\\bigg)-\\text{n}\\overline{\\text{X}}$
\r\n$=\\text{n}\\overline{\\text{X}}-\\text{n}\\overline{\\text{X}}$
\r\n$=0$

\r\n","marks":1},{"id":1439154,"slug":"the-mean-of-the-marks-scored-by-50-students-was-found-to-be-39-later-on-it-was-discovered-_333377","question":"The mean of the marks scored by $50$ students was found to be $39.$ Later on it was discovered that a score of $43$ was misread as $23.$ The correct mean is:","mcq":["$$35.6$","$$39.4$","$$39.8$","$$39.2$"],"answer":"B","solution":"Calculted mean of $50$ students $= 39$
\r\n$\\therefore\\ $Calculated sum of these numbers $= 39 × 50 = 1950$
\r\nCorrect sum of these numbers $= 1950 - ($wrong term$) + ($correct term$)$
\r\n$= 1950 - 23 + 43$
\r\n$= 1970$
\r\n$\\therefore\\ $the corrected mean $=\\frac{1970}{50}$
\r\n$=39.4$","marks":1},{"id":1439153,"slug":"if-the-less-than-ogive-and-the-more-than-ogive-intersect-at-32-48-then-the-median-of-the-d_333378","question":"If the less than ogive and the more than ogive intersect at $(32, 48),$ then the median of the data is:","mcq":["$$48$","$$16$","$$32$","$$80$"],"answer":"C","solution":"

If the less than ogive and the more than ogive intersect at $(32, 48)$, then the median of the data is $32.$ Because on the graph, the point of the $x-$axis, where less than ogive and more than ogive intersects, is the median. Therefore, the Median of the data is $32.$

\r\n","marks":1},{"id":1439152,"slug":"a-frequency-polygon-is-constructed-by-plotting-frequency-of-the-class-interval-and-the_333379","question":"A frequency polygon is constructed by plotting frequency of the class interval and the:","mcq":["Upper limit of the class.","Lower limit of the class.","Mid value of the class.","Any values of the class."],"answer":"C","solution":"Frequency polygon is the plot of frequencies vs. the mid values of the classes.","marks":1},{"id":1439151,"slug":"the-class-mark-of-the-class-100-120-is_333380","question":"The class mark of the class $100-120$ is:","mcq":["$$110$","$$115$","$$100$","$$120$"],"answer":"A","solution":"

Class mark $=\\frac{\\text{Upper limit + lower limit}}{2}=\\frac{120+100}{2}=110$

\r\n","marks":1},{"id":1439150,"slug":"there-are-50-numbers-each-number-is-subtracted-from-53-and-the-difference-between-the-mean_333381","question":"There are $50$ numbers. Each number is subtracted from $53$ and the difference between the mean of the numbers so obtained is found to be $-3.5.$ The mean of the given number is:","mcq":["$$49.5$","$$53.5$","$$56.5$","$$46.5$"],"answer":"C","solution":"

Let the mean of the initial sequence is $x.$
\r\nGiven that, after subtracting $53$ from each number, the difference between the means is $3.5$
\r\nSo, $x - 53 = 3.5$
\r\nMean of the number is $x = 53 + 3.5 = 56.5$

\r\n","marks":1},{"id":1439149,"slug":"in-a-histogram-each-class-rectangle-is-constructed-with-base-as_333382","question":"In a histogram, each class rectangle is constructed with base as:","mcq":["Size of the class","Frequency","Class interval","Range"],"answer":"C","solution":"Class interval is the difference between the upper limit and lower limit of a class, also called as class width.
\r\nHence it forms the base of the rectangle in histogram.","marks":1}],"topicId":2434,"topicName":"M.C.Q"}]

Class Interval	$5-10$	$10-15$	$15-25$	$25-45$	$45-75$
Frequency	$6$	$12$	$10$	$8$	$15$

Class	$10-20$	$20-30$	$30-40$
Cumulative frequency	$5$	$14$	$25$

Marks	Less than $10$	Less than $20$	Less than $300$	Less than $40$
Cumulative frequency	$3$	$17$	$37$	$92$

Outcome	$1$	$2$	$3$	$4$	$5$	$6$
Frequency	$180$	$150$	$160$	$170$	$150$	$190$

MATHS M.C.Q

M.C.Q

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