Most Important box Problems of Reasoning for different competitive Exams

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Reasoning of missing number in box problems will be discussed with the help of most important examples. Some of these examples are of 3 × 3 order and other are of different orders .

Most Important Box Problems of Reasoning for different competitive Exams

Problem # 1

This reasoning problem consists of three figures and every figure have five numbers associated to it . Four numbers are on the corner of each box and one number is in the middle of every box. Look at last figure , it have ?(question mark) in its centre . So the solution of this problem is to find the value of question mark using other four numbers associated to it .

But the main aim is how to utilised these two numbers to get the value of question mark?.

We have to find or search the formula for these four numbers in each figure to utilised them in any possible way to get number in each box .

Formula :-

Left most number in 1st row of any box + { Product of all other numbers in same box } = Middle number in that box.

1st Box

3 + (4 × 5 × 3) = 3 + 60 = 63

2nd Box

6 + (7 × 3 × 5) = 6 + 105 = 111

3rd Box

2 + (6 × 5 × 4) = 2 + 120 = 122

Therefore option (3) 122 is correct.

Problem # 2

This reasoning problem consists of two figures and every figure have five numbers associated to it . Four numbers are on the corner of each box and one number is in the middle of both the box. Look at 2nd figure , it have ? in its centre . So the solution of this problem is to find the value of question mark using other four numbers associated to it .

We have to find the formula for these four numbers in both figures to utilised them in any possible way to get number in each box .

Formula

Product of both the numbers in 1st row - Product of both the numbers in 3rd row = Number in central row

1st Box

(11 × 12) - ( 6 × 9) = 132 - 54 = 78.

2nd Box

(14 × 10) - ( 7 × 8) = 140 - 56 = 84

Therefore option (1) 84 is correct.

Problem # 3

This box problem consist of three rows and three columns . And we have to find the value of question mark after studying the pattern of all the numbers in this box. This question mark is in 3rd row of 3rd column.

Formula:-

Square of Number in 2nd row ÷ Number in 1st row = Number in 3rd row

8² ÷ 4 = 64 ÷ 4 = 16

6² ÷ 3 = 36 ÷ 3 = 12

10² ÷ 2 = 100 ÷ 2 = 50

Therefore option (2) 50 is correct.

Problem # 4

This box problem consists of six rows and two columns. And we have to find the value of question mark after studying the pattern of all the numbers in this box. This question mark is in 4th row of 2nd column.

Formula:-

The sum of both the numbers in any row = Number in 1st column of lower row.

6 + 9 = 15 (The number in 1st column of 2nd row)

15 + 7 = 22 (The number in 1st column of 3rd row)

22 + 5 = 27 (The number in 1st column of 4th row)

27 + ? = 36 ⇒ ? = 36 - 27⇒ = 9 (The number in 1st column of 5th row)

36 + 3 = 39 (The number in 1st column of 6th row)

Therefore option (1) 9 is correct.

Problem # 5

This box problem also consist of six rows and two columns . And we have to find the value of question mark after studying the pattern of all the numbers in this box. This question mark is in 2nd row of 2nd column.

1st Column

Formula :-

Sum of two numbers in consecutive rows of same column = Number in Succeeding row of same column taken in order from top to bottom.

3 + 6 = 9 (Sum of the numbers in 1st and 2nd rows is equal to number in 3rd row of 1st column).

6 + 9 = 15 (Sum of the numbers in 2nd and 3rd rows is equal to number in 4th row of 1st column).

9 + 15 = 24 (Sum of the numbers in 3rd and 4th rows is equal to number in 5th row of 1st column).

15 + 24 = 39 (Sum of the numbers in 4th and 5th rows is equal to number in 6th row of 1st column).

2nd Column

Formula:-

Sum of two numbers in consecutive rows of same column = Number in Succeeding row of same column taken in reverse order from bottom to top.

4 + 7 = 11 (Sum of the numbers in 6th and 5th rows is equal to number in 4th row of 2nd column).

7 + 11 = 18 (Sum of the numbers in 5th and 4th rows is equal to number in 3rd row of 2nd column).

11 + 18 = 29 (Sum of the numbers in 4th and 3rd rows is equal to number in 2nd row of 2nd column).This is also the value of question mark.

18 + 29 = 47 (Sum of the numbers in 3rd and 2nd rows is equal to number in 1st row of 2nd column).

Therefore option (1) 29 is correct.

Problem # 6

To find the value of question mark. we shall divide this box into two parts vertically then we can have the formula for these numbers written in this box . Because after careful observation we can see that the product of both the numbers in left half in any particular row is equal to sum of both the numbers in right half in that particular row.

This reasoning problem can be solved by two different methods.

1st Method

Column wise

(1 × 2 ) + 1 = 2 + 1 = 3 (1st Column)

(7 × 14 ) + 7 = 98 + 7 = 105 (2nd Column)

(9 × ? ) + 9 = 117 (3rd Column)

(9 × ? ) = 117 - 9

(9 × ? ) = 108

? = 108/9

? = 12

2nd Method

(2 + 1 ) × 1 = 3

(14 + 1 ) × 7 = 15 × 7 = 105

(? + 1 ) × 9 = 117

(? + 1 ) = 117/9

(? + 1 ) = 13

? = 13 - 1

? = 12

Therefore option (2) 12 is correct.

Problem # 7

This box problem consist of three rows and four columns .And we have to find the value of question mark after studying the pattern of all the numbers in this box. This question mark is in 3rd row of 3rd column.

This reasoning problem can be solved by two different methods.

1st Method

Formula:-

{R4 ÷ R3} × R2 = R1

(8 /4) × 3 =2 × 3 = 6

(27 /3) × 2 = 9 × 2 = 18

(9/?) × 5 = 15

(9/?) = 15/5 = 3

(?/9) = 1/3

? = 9/3

? = 3

2nd Method

Multiplication of 1st and 3rd columns = Multiplication of 2nd and 4th columns.

Formula:-

{R1 × R3} = {R2 × R4}

6 × 4 = 8 × 3

18 × 3 = 2 × 27

15 × ? = 5 × 9

? = 45/15

? = 3

Therefore option (4) 3 is correct.

Problem # 8

This reasoning problem consists of three figures and every figure have five numbers associated to it . Four numbers are on the outer side of each box and one number is in the middle of both the box. Look at 3rd figure , it have ? in its centre . So the solution of this problem is to find the value of question mark using other four numbers associated to it.

We have to find the formula for these four numbers in 1st two figures to utilised them in any possible way to get number in each box .

1st method

Formula :-

Product of all the numbers in outer parts ÷ 10 = Middle number

(5 × 3 × 4 × 2)/10 = 120/10 = 12 (1st Box)

(5 × 6 × 2 × 3)/10 = 180/10 = 18 (2nd Box)

(5 × 2 × 2 × 9)/10 = 180/10 = 18 (3rd Box)

2nd Method

Since 5 and 2 are common in all the three figures, so ignore these two numbers and check the multiplication of other two numbers to get middle number in all the three figures.

3 × 4 = 12(1st Box)

6 × 3 = 18(1st Box)

9 × 2 = 18(3rd Box)

Therefore option (3) 18 is correct.

Problem # 9

1st Method

Formula :-

Any Term = { (Previous Term) × 2 } + n, where n is natural number less than 6

1st Term = (4 × 2) + 1 = 8 + 1 = 9

2nd Term = (9 × 2) + 2 = 18 + 2 = 20

3rd Term = (20 × 2) + 3 = 40 + 3 = 43

4th Term = (43 × 2) + 4 = 86 + 4 = 90

5th Term = (90 × 2) + 5 = 180 + 5 = 185(The value of question mark).

2nd Method

Now taking difference of two consecutive terms

Again taking difference of two consecutive terms. From last row we are seeing that differences are double of previous difference , Hence next difference must be 48.

Therefore

x - 47 = 48

x = 48 + 47

x = 95

Hence differences in 2nd row would be 5 , 11 , 23 , 47, 95

And from 1st row

? - 90 = 95

? = 95 + 90

? = 185

Therefore option (3) 185 is correct.

Problem # 10

Since question mark in this figure is in the outer circle of this figure. To find the value of question mark (?). We can combine two numbers present in the inner circle with the help of any mathematical operation/s to find the value of number in the outer circle .

Starting from 3 and moving clockwise , taking two numbers at a time in inner circle will be equal to number in outer circle.

Formula :-

{2 × 1st Number} + {2nd Number} = Number in outer circle

(2 × 3) + 4 = 6 + 4 = 10

(2 × 4) + 6 = 8 + 6 = 14

(2 × 6) + 8 = 12 + 8 = 20

(2 × 8) + 3 = 16 + 3 = 19 = ?(The value of question mark)

Therefore option (1) 19 is correct.

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Reasoning of missing number in box problems with solutions discussed in this post . These types of problems are very helpful for cracking competitive exams like ssc cgl, ssc CHSL and various Bank exams and many other similar exams. please feel free to comment your opinions regarding this post.

Mix reasoning practice set in english ,SSC Reasoning Practice Set PDF Download

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Mix reasoning practice set in English, SSC Previous Year Reasoning Questions PDF, Most important Reasoning questions with answers which includes circle problems, box problems, triangles problems for competitive exams like SSC CGL , SSC CHSL ,CPO ,Bank exams and RRB NTPC etc have been explained in this post.

Ten Important Reasoning questions with answers for competitive exams

Problem # 1

This box problem consist of four rows and four columns . And we have to find the value of question mark in 4th row after studying the pattern of all the numbers in this box. This question mark is in 4th row of 2nd column.

Formula :- (R2 - R3) × R1 = R4

Calculation

Column 1

(15 -14 ) × 10 = 10

Column 3

(8 - 6 ) × 7 = 14

Column 4

(25 -12 ) × 5 = 65

Column 2

(7 - 3 ) × 4 = 16

Option (A)16 is correct option.

Problem # 2

This problem figure consists of four rows and every rows from top to bottom have one more row in comparison to previous row.

If we take the product of all the numbers in each row and compare the result so obtained ,then we have same result in every row.

Product of all the numbers in every row is 120.

2 × 5 × 4 × 3 = 120 ( Last Row )

4 × 15 × 2 = 120 (2nd Last Row )

10 × 12 = 120 (2nd Row )

Hence the value of "?" must be 20

Option (4)120 is correct option.

Problem # 3

This circle consists of four quadrants and every quadrant consists of three numbers . And every quadrant have two numbers in outer part and one number in the inner part . To find the value of question mark "?" , we shall use two numbers which are in the outer part to calculate the value of the number which is in the inner part of every quadrant .

Since the question mark is in 1st quadrant ,so we have to start the calculation from 2nd quadrant.

2nd Quadrant

Step 1. Take sum of both the numbers (16 and 20 ) in outer part of this quadrant.

Step 2. Take the square root of the number obtained in step 1.

Calculation

√( 20 +16) = √(36) =6

3rd Quadrant

Step 1. Take sum of both the numbers (5 and 4 ) in outer part of this quadrant.

Step 2. Take the square root of the number obtained in step 1.

Calculation

√( 5 + 4 ) = √( 9) =3

4th Quadrant

Step 1. Take sum of both the numbers (5 and 4 ) in outer part of this quadrant.

Step 2. Take the square root of the number obtained in step 1.

Calculation

√(15 +10) = √(25) =5

1st Quadrant

Step 1. Take sum of both the numbers (5 and 4 ) in outer part of this quadrant.

Step 2. Take the square root of the number obtained in step 1.

Calculation

√( 30 +19) = √(49) = 7

Option (1)7 is correct option.

Problem # 4

Writing the 1st Number as it is and then place its cube on the right side of it. Now moving clockwise pick the next odd number for next position.

1³ = 1 ⇒ 11

3³ = 27 ⇒327

5³ = 125 ⇒5125

7³ = 343 ⇒7343

9³ = 729 ⇒9729

Option (3)9729 is correct answer.

Problem # 5

This box problem consists of three rows and three columns. To find the value of question marks in 3rd column of 3rd row, we have to add 1st ,2nd and 3th columns since since in every column is same in every row.

Formula :- .

F + 4 = J , J + 4 = N

M + 4 = Q , Q + 4 = U

O + 4 = S , S + 4 = W

Option (B)W is correct option.

Problem # 6

Formula :- The sum of 1st three column in every row is same .

B + 1 = D , D + 1 = F

N + 1 = P , P + 1 = R

H + 1 = J , J + 1 = L = ?

And 3 + 3 = 6

7 + 9 = 16

5 + 6 = 11

Hence L11

Option (B)L11 is correct option.

Problem # 7

Starting from 4th quadrant in anti clockwise direction ,take the sum of both the numbers in outer part of the quadrant .Then reverse the orders of both the digits of the number so obtained to get the value of the number in the inner part of same quadrant.

4th Quadrant

9 × 8 = 72 ⟺ 27 (After reversing the orders of digits)

1st Quadrant

8 × 3 = 24 ⟺ 42 (After reversing the orders of digits)

2nd Quadrant

5 × 7 = 35 ⟺ 53 (After reversing the orders of digits)

3rd Quadrant

7 × 7 = 49 ⟺ 94 (After reversing the orders of digits) (The value of question mark).

Hence option (2)94 is correct.

Problem # 8

Splitting all the numbers in the given circle into two series

1st Series

28, 32 , 36, 40 with a difference of 4

Any Term = Preceding Term + 4

1st term = 28

2nd term = 1st term + 4

2nd term = 28 + 4 = 32

2nd term = 32

3rd term = 2nd term + 4

3rd term = 32 + 4 = 36

3rd term = 36

4th term = 3rd term + 4

4th term = 36 + 4 = 40

4th term = 40

2nd Series

? , 31 , 33, 35 with a difference of 2 , So the 1st term of this series must be 2 less than the 2nd term.

Any Term = Preceding Term - 2

4th term = 5th term - 2

4th term = 37 - 2

4th term = 35

3rd term = 4th term - 2

3rd term = 35 - 2

3rd term = 33

2nd term = 3rd term - 2

2nd term = 33 - 2

2nd term = 31

Therefore 1st term = 2nd term - 2

1st term = 31 - 2

1st term = 29

Option (3)29 is correct Answer

Problem # 9

Every term can be expressed with the help of preceding term.

(2 × 1) + 2 = 2 + 2 = 4 ( 2nd number in series)

(4 × 2) - 3 = 8 - 3 = 5 ( 3rd number in series)

(5 × 3) + 4 = 15 + 4 = 19 ( 4th number in series)

(19 × 4) - 5 = 76 - 5 = 71 ( 5th number in series)

(71 × 5) - 6 = 355 - 6 = 349 ( 6th number in series)

Option (3)349 is correct Answer

Problem # 10

5 = 1st term

(5 × 3) + 1 = 15 + 1 =16 = 2nd term

(16 × 3) + 2 = 48 + 2 =50 = 3rd term

(50 × 3) + 3 = 150 + 3 =153 = 4th term = value of question mark

(153 × 3) + 4 = 459 + 4 =463 = 5th term

(463 × 3) + 5 = 1389 + 5 = 1394 = 2nd term

Option (2)153 is correct Answer

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Most important Box Reasoning questions with answers which includes circle problems, box problems, circle problems, triangles problems for competitive exams like SSC CGL ,SSC CHSL ,CPO ,Bank exams and RRB NTPC etc have been explained in this post.

Ten Important Box Reasoning questions with answers for competitive exams

Problem #1

This reasoning problem consists of three figures and every figure have three numbers associated to it . So the solution of this problem is to find the value of question mark using other two numbers associated to it .

But the main problem is how to utilised these two numbers to get the value of this question mark?

Now watch carefully the 1st two figures . since these figures have some values at bottom lines.

Now we have to find or search the formula for these two numbers in each figure to utilised them in any possible way to get number in bottom line.

The same formula will be applicable to third figure to find out the value of question mark.

Formula :-

The difference of squares of greater number to smaller number in upper line in every figure is equal to number in lower line in every figure.

4³ - 6² = 64 - 36 = 28 (1st figure)

3³ - 2² = 27 - 4 = 23 ( 2nd figure)

5³ - 5² = 125 - 25 = 100 (3rd figure), This number will be the value of question mark.

Option (3)100 is correct option

Problem #2

This reasoning problem also consists of three figures and every figure have three numbers associated to it . So the solution of this problem is to find the value of question mark using other two numbers associated to it .

But the main purpose is how to utilised other two numbers to get the value of this question mark?

Now watch carefully the 1st two figures . since these figures have some values at bottom lines.

Now we have to find or search the formula for these two numbers in each figure to utilised them in any possible way to get number in bottom line.

The same formula will be applicable to third figure to find out the value of question mark.

Formula :-

The sum of cubes of 1st number and squares of 2nd number in upper line in every figure is equal to number in lower row in every figure.

4³ + 6² = 64 + 36 = 100 (1st figure)

2³ + 7² = 8 + 49 = 57 (2nd figure)

4³ + 4² = 64 + 16 = 80 (3rd figure)

Option (4)80 is correct option

Problem #3

This reasoning problem is a box problem of 3 rows and 3 columns, where the the value of question mark in last row we have to find.

Formula :-

Four times the difference of the 1st columns and 2nd column = Number in 3rd column.

C3 = 4 × (C1 - C2)

4 × ( 9 - 4 ) = 4 × 5 = 20 ( Number in 1st row 3rd column ) .

4 × ( 8 - 5 ) = 4 × 4 = 16 ( Number in 2nd row 3rd column )

4 × ( 7 - 6 ) = 4 × 1 = 2 ( Number in 1st row 3rd column ) .

Option (A)2 is correct option

Problem #4

This reasoning problem is a box problem of 4 rows and 3 columns, And we have to find the the value of question mark in 3rd column of 3rd row .

Formula :-

In every column the sum of 1st and 3rd row is equal to sum of 2nd and 4th row.

i.e. R1 + R3 = R2 + R4

1st Column

9 + 7 = 5 + 11 = 12 ( Equal sum in 1st column of R1 & R3 and R2 &R4 )

2nd Column

6 + 4 = 8 + 2 = 10 ( Equal sum in 2nd column of R1 & R3 and R2 &R4 )

3rd Column

8 + ? = 4 + 7 = 11 ( Equal sum in 3rd column of R1 & R3 and R2 &R4 )

Hence 8 + ? = 11

? = 11 - 8

? = 3

Option (D)3 is correct option

Problem #5

This reasoning problem is a box problem of 4 rows and 3 columns, And we have to find the the value of question mark in 3rd column of 2nd row .

Formula :-

Divide 1st row with the difference of 4th and 3rd row to get the value of 2nd row.

R1 ÷ ( R4 - R3 ) = R2

1st Column

25 ÷ ( 20 - 15 ) = 25 ÷ 5 = 5 ( Number in 2nd row 1st column )

2nd Column

49 ÷ ( 20 - 13 ) = 49 ÷ 7 = 7 ( Number in 2nd row 2nd column )

3rd Column

81 ÷ ( 20 - 11 ) = 81 ÷ 9 = 5 = ? ( Number in 2nd row 3rd column )

Option (B)9 is correct option

Problem #6

This reasoning problem is a box problem of 4 rows and 3 columns, And we have to find the the value of question mark in 2nd column of 2nd row .

Formula :-

Add square root of 1st three row to get the value of number in fourth row.

R1 + R2 + R3 = R4

1st Column

√169 + √64 + √81 = 13 + 8 + 9 = 30 ( Number in 4th row of 1st column )

3rd Column

√1296 + √576 + √100 = 36 + 24 + 10 = 70 ( Number in 4th row of 3rd column )

2nd Column

√625 + √? + √49 = 25 + √? + 7 = 50

32 + √? = 50

√? = 50 - 32

√? = 18 , Squaring both sides

? = 324 ( Number in 4th row of 2nd column )

Option (A)324 is correct option

Problem #7

This reasoning problem is also a box problem of 3 rows and 3 columns, And we have to find the the value of question mark in 3rd column of 2nd row .

Formula :-

Divide the sum of square of 1st row to 3rd row to get the value of number in 2nd row.

(R1² + R3 ) ÷ 2 = R2.

1st Column

( 4² + 4 ) ÷ 2 = ( 16 + 4 ) ÷ 2 = 20 ÷ 2 = 10 ( Number in 2nd row of 1st column )

2nd Column

( 18² + 6 ) ÷ 2 = ( 324 + 6 ) ÷ 2 = 330 ÷ 2 = 165 ( Number in 2nd row of 2nd column )

3rd Column

( 23² + 1 ) ÷ 2 = ( 529 + 1 ) ÷ 2 = 530 ÷ 2 = 265 ( Number in 2nd row of 3rd column )

Option (B)265 is correct option

Problem #8

This reasoning problem is a box problem of 4 rows and 3 columns, And we have to find the the value of question mark in 2nd column of 2nd row .

Formula :-

Add square root of 1st three row to get the value of number in fourth row.

R1 + R2 + R3 = R4.

1st column

2² + 20 = 4 + 20 = 24

2nd column

3² + 30 = 9 + 30 = 39

3rd column

4² + 40 = 16 + 40 = 56

Option (D)56 is correct option

Problem #9

In this reasoning problem two clues are given to find the value of question mark. In 1st clue two numbers 27 and 4 (both are on left hand side ) are associated to give result 139(the number of the right hand side) by using any mathematical operations or combination of mathematical operations. And in 2nd clue two numbers 31 and 9 are associated to give result 319 by using any mathematical operations or combination of mathematical operations. Similarly we have to associate 21 and 6 by using same mathematical operation to find the value of question mark.

Formula :-

(1st number × 2nd number ) + (1st number + 2nd number ) = Number of right hand side

(27 × 4 ) + (27 + 4 ) = 108 + 31 = 139.

(31 × 9 ) + (31 + 9 ) =

279 + 40 = 319.

(21 × 6 ) + (21 + 6 ) = 126 + 27 = 153 = The value of Question mark.

Option (1)153 is correct option

Problem #10

In this reasoning problem two clues are given to find the value of question mark. In 1st clue two numbers 27 and 4 (both are on left hand side ) are associated to give result 77(the number of the right hand side) by using any mathematical operations or combination of mathematical operations. And in 2nd clue two numbers 31 and 9 are associated to give result 239 by using any mathematical operations or combination of mathematical operations. Similarly we have to associate 21 and 6 by using same mathematical operation to find the value of question mark.

Formula :-

(1st number × 2nd number ) - (1st number + 2nd number ) = Number of right hand side

(27 × 4 ) - (27 + 4 ) = 108 - 31 = 77.

(31 × 9 ) - (31 + 9 ) =

279 - 40 = 239.

(21 × 6 ) - (21 + 6 ) = 126 - 27 = 99 = The value of Question mark.

Option (2)99 is correct option

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Ten Missing term in box reasoning , Reasoning questions with answer, box reasoning with solutions have been discussed in this post . These types of problems are very helpful for cracking competitive exams like ssc cgl, ssc chsl , RRB NTPC, Group D and various Bank exams and many other similar exams.

Missing term in box reasoning questions with answers

Problem # 1

Product of both the digits in 1st column is equal to sum of both the digits in 2nd column in every box.

1st Box

5 × 2 = 5 + 5 = 10

3 × 2 = 5 + 1 = 6

4 × 3 = 8 + 4 =12

2nd Box

5 × 2 = 6 + 4 =10
3 × 3 = 7 + 2 = 9
4 × 4 = 7 + 9 =16 (choose one of the option from given four whose digits's product should be 16)

3rd Box

4 × 4 = 8 + 8 = 16
2 × 6 = 6 + 6 = 12 (choose one of the option from given four whose digits's sum should be 12)
3 × 5 = 6 + 9 =15
Hence correct option is (4)44, 66

Problem # 2

Sum of squares of both the digits in 1st column is equal to the Number in 2nd column in every box.

1st Box

2² + 1² = 4 + 1 = 5

5² + 4² = 25 + 16 = 41

1² + 1² = 1 + 1 = 2

2nd Box

4² + 6² = 16 + 36 = 52

6² + 6² = 36 + 36 = 72

8² + 0² = 64 + 0 = 64

3rd Box

2² + 3² = 4 + 9 = 13

2² + 2² = 4 + 4 = 8

1² + 5² = 1 + 25 = 26

Hence correct option is (1)72, 13

Problem # 3

Formula :-

Add one to both the digits in 1st column separately in every box to get the number in 2nd column in every box.

1st Box

2 + 1 = 3(Digit in ten's place) , 1 + 1 = 2(Digit in unit's place)

Hence Number in 2nd column will be 32.

2 + 1 = 3(Digit in ten's place) , 2 + 1 = 7(Digit in unit's place)

Hence Number in 2nd column will be 37.

2 + 1 = 3(Digit in ten's place) , 9 + 1 = 10(Digit in unit's place)

Hence Number in 2nd column will be 310

2nd Box

7 + 1 = 8(Digit in ten's place) , 6 + 1 = 7(Digit in unit's place)
Hence Number in 2nd column will be 87.

3 + 1 = 4(Digit in ten's place) , 5 + 1 = 6(Digit in unit's place)
Hence Number in 2nd column will be 46.

8 + 1 = 9(Digit in ten's place) , 0 + 1 = 1(Digit in unit's place)
Hence Number in 2nd column will be 91.

3rd Box

7 + 1 = 8(Digit in ten's place) , 9 + 1 = 10(Digit in unit's place).
Hence Number in 2nd column will be 810.

9 + 1 = 10(Digit in ten's place) , 9 + 1 = 10(Digit in unit's place).
Hence Number in 2nd column will be 1010.

6 + 1 = 7(Digit in ten's place) , 5 + 1 = 6(Digit in unit's place)
Hence Number in 2nd column will be 76.
Hence correct option is (2)1010.

Problem # 4

Formula :-

Difference between the numbers in 1st and 2nd column is same in every row in all the three Boxes.

1st Box

54 - 50 = 4 (1st row)

19 - 15 = 4 (2nd row)

43 - 39 = 4 (3rd row).

3rd Box

44 - 40 = 4 (1st row)

70 - 66 = 4 (2nd row)

35 - 31 = 4 (3rd row)

2nd Box

34 - 30 = 4 (1st row)

33 - 29 = 4 (2nd row)

? - 83 = 4 (3rd row).

? = 4 + 83

? = 87(The value of question mark).

Hence correct option is (3)87.

Problem # 5

Formula :-

Sum of all the numbers in 1st column is 50 and Sum of all the numbers in 2nd column is 60 in all the three boxes.
1st Box
14 + 13 + 23 = 50
18 + 15 + 27 = 60

3rd Box

22 + 18 + 10 = 50
20 + 16 + 24 = 60

2nd Box

16 + 13 + ? = 50
24 + 15 + 21 = 60
Hence ? = 50 - (16 +13)
? = 50 - 29
? = 21

Hence correct option is (4)21.

Problem # 6

Formula :-

Sum of all the numbers in every row is 100.

1st Row

14 + 12 + 16 + 14 + 24 +20 = 100

2nd Row

19 + 15 + 13 + 18 + 19 +16 = 100

3rd Row

33 + 27 + 29 + ? + 5 +4 = 100

89 + ? + 9 = 100

? + 98 = 100

? = 100 - 98

? = 2(The value of question mark)

Hence correct option is (1)2.

Problem # 7

Formula :-

Product of both the digits in 1st column is equal to sum of both the digits in 2nd column in every box.

1st Box

5 × 2 = 5 + 5 = 10

3 × 2 = 5 + 1 = 6

4 × 3 = 8 + 4 = 12

2nd Box

5 × 2 = 6 + 4 = 10
3 × 3 = 5 + 1 = 6
4 × 3 = 8 + 4 = 12

3rd Box

5 × 2 = 5 + 5 = 6
3 × 2 = 5 + 1 = 6
4 × 3 = 8 + 4 =12
Hence correct option is (3)16.

Problem # 8

Formula :-

The product of 1st and 3rd numbers in each column of every box is equal to the Number in middle number in opposite box.

1st Box

5 × 7 = 35 Number in middle row opposite to 2nd column (1st box 2nd column )

3 × 5 = 15 Number in middle row opposite to 1st column (1st box 1st column).

2nd Box

4 × 2 = 8 Number in middle row opposite to 2nd column (2nd box 2nd column ).

5 × 9 = 45 Number in middle row opposite to 2nd column ( 2nd box 1st column ).

3rd Box

7 × 6 = 42 Number in middle row opposite to 2nd column (3rd box 2nd column ).

8× 9 = 72 Number in middle row opposite to 2nd column ( 3rd box 1st column).

Hence correct option is (3)42.

Problem # 9

Formula :-

Number in middle row opposite to 2nd column

1st Box

5 + 7 = 12 Number in middle row opposite to 2nd column (1st box 2nd column )

3 + 5 = 8 Number in middle row opposite to 1st column (1st box 1st column).

2nd Box

4 + 2 = 6 Number in middle row opposite to 2nd column (2nd box 2nd column).

5 + 9 = 14 Number in middle row opposite to 1st column (2nd box 1st column).

3rd Box

7 + 6 = 13 Number in middle row opposite to 2nd column (3rd box 2nd column) .

8 + 9 = 17 Number in middle row opposite to 1st column (3rd box 1st column).

Hence correct option is (2)17.

Problem # 10

Formula :-

Product of both the digits in 1st column is equal to product of both the digits in 2nd column in every row and in every box .

1st Box

5 × 4 = 4 × 5 = 20(1st row 1st box).

1 × 2 = 2 × 1 = 2(2nd row 1st box).

4 × 3 = 2 × 6 = 12(3rd row 1st box).

2nd Box

3 × 4 = 6 × 2 = 12(1st row 2nd box).

3 × 3 = 1 × 9 = 9(2nd row 2nd box).

4 × 6 = 8 × 3 = 24(3rd row 2nd box).

3rd Box

4 × 4 = 8 × 2 = 16(1st row 3rd box).

6 × 4 = ? × ? = 24(2nd row 3rd box).

So out of four option only the product of both the digits in 4th option is equal to 24.

3 × 5 = 5 × 3 = 15(3rd row 3rd box).

Hence correct option is (4)38

Ten Missing term in box reasoning questions with answers box with solutions discussed in this post . These types of problems are very helpful for cracking competitive exams like ssc cgl, ssc chsl and various Bank exams and many other similar exams. please feel free to comment your opinions regarding this post.

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