A 5-Digit Code Consists of One Number Digit Chosen from 1, 2, 3 GMAT Problem Solving

Question: A 5-digit code consists of one number digit chosen from 1, 2, 3 and four letters chosen from A, B, C, D, E. If the first and last digit must be a letter digit and each digit can appear more than once in a code, how many different codes are possible?

1. 375
2. 625
3. 1,875
4. 3,750
5. 5,625

Correct Answer: E
Solution and Explanation:
Approach Solution 1:

The problem statement states that:
Given:

• A 5-digit code consists of one number digit chosen from 1, 2, 3 and four letters chosen from A, B, C, D, E.
• The first and last digit must be a letter digit and each digit can appear more than once in a code.

Find out:

• The possible number of different codes.

Please note that each digit can appear more than once in a code.
There should be 4 letters in a code (X-X-X-X) and each letter can take 5 values (A, B, C, D, E) Therefore, the total number of combinations of the letters only is 5*5*5*5=5^4.
The question states that the first and last digits must be a letter digit.
Therefore, the number digit can take any of the three slots between the letters: X-X-X-X, so 3 positions and the digit itself can take 3 values (1, 2, 3).
Hence, the total number of codes is 5^4 * 3 * 3 = 5,625.
Therefore, the possible number of different codes = 5,625.

Approach Solution 2:
The problem statement informs that:
Given:

• A 5-digit code consists of one number digit chosen from 1, 2, 3 and four letters chosen from A, B, C, D, E.
• The first and last digit must be a letter digit and each digit can appear more than once in a code.

Find out:

• The possible number of different codes.

Select one number from 3 numbers in 3C1 = 3 ways
Select one position from the middle three for the number in 3C1 = 3 ways
The other four positions can be filled by the 5 letters in 5^4 ways.
Therefore, the total number of codes possible = 3 * 3 * (5^4) = 5,625

Approach Solution 3:
The problem statement implies that:
Given:

• A 5-digit code consists of one number digit chosen from 1, 2, 3 and four letters chosen from A, B, C, D, E.
• The first and last digit must be a letter digit and each digit can appear more than once in a code.

Find out:

• The possible number of different codes.

Since repetitions are allowed, there are 5 ways to select the letters for the first slot and five ways to pick for the last slot
Therefore, the sequence is 5 x _ x _ x _ x 5
We still need to choose 1 digit and 2 letters between.
For the letters, again, repetitions are allowed so each slot can be filled in 5 ways.
For digit, it can only be filled in 3 ways.\
However, since the digit can be in any one of the 3 middle slots, so we need to multiply by 3 again:
5 x 3 x 5 x 5 x 5 or
5 x 5 x 3 x 5 x 5 or
5 x 5 x 5 x 3 x 5
Therefore, the total number of codes possible = 5 x 5 x 5 x 5 x 3 x 3 = 5^4 x 3^2 = 5625.
Hence, the total number of codes possible = 5625

“A 5-digit code consists of one number digit chosen from 1, 2, 3”- is a topic of the GMAT Quantitative reasoning section of the GMAT exam. This topic has been taken from the book “GMAT Official Advanced Questions”. The candidate needs to analyse every data of the GMAT Problem Solving questions in order to solve quantitative problems. GMAT Quant practice papers help the candidates to get familiar with different types of questions that will improve their mathematical knowledge.

Suggested GMAT Problem Solving Questions

• Total Expenses of a Boarding House are Partly Fixed and Partly Varying GMAT Problem Solving
• A Bouquet Contains 16 Flowers, Each of Them Either a Rose, Tulip GMAT Problem Solving
• A Club has 256 Members of Whom 144 Can Play Football, 123 Can Play Ten GMAT Problem Solving
• Box A Contains 2 Black Chips. Box B Contains 2 White Chips GMAT Problem Solving
• What is the Smallest Positive Integer k such that 126 * \sqrt k GMAT Problem Solving
• In a Class of 60 Students, 20 Like Math, 25 Like English GMAT Problem Solving
• For All Positive Integers m, [m] = 3m When m is Odd and [m] = (1/2)*m When GMAT Problem Solving
• In an Examination, 35% Candidates Failed in One Subject and 42% Failed GMAT Problem Solving
• Bouquets are to be Made Using White Tulips and Red Tulips GMAT Problem Solving
• An Equilateral Triangle that has an Area of 9√3 is Inscribed in a Circle GMAT Problem Solving
• A Cube is Painted Red on All Faces. It is Then Cut into 27 Equal Smaller GMAT Problem Solving
• A password on Mr. Wallace's briefcase consists of 5 digits GMAT Problem Solving
• There are 8 Magazines Lying on a Table; 4 are Fashion Magazines GMAT Problem Solving
• The Area Bounded by the Curves |x + y| = 1 and |x - y| = 1 is GMAT Problem Solving
• After 2/9 of the numbers in a data set A were observed GMAT Problem Solving
• Anna has 10 marbles: 5 red, 2 blue, 2 green and 1 yellow GMAT Problem Solving
• A Motorist Covers a Distance of 39 Km in 45 Min by Moving at a Speed GMAT Problem Solving
• Which of the Following is the Largest? GMAT Problem Solving
• Julie is Putting M Marbles in a Row in a Repeating Pattern GMAT Problem Solving
• A Pump Can Fill a Tank with Water in 2 Hours. Because of a Leak GMAT Problem Solving
• In a Country 55.55 % of the Population are Males and Rest Females GMAT Problem Solving
• Two Candles of the Same Height are Lighted at the Same Time GMAT Problem Solving
• A Telephone Number Contains 10 Digit, Including a 3-Digit Area Code GMAT Problem Solving
• A Regular Octagon (a Polygon with 8 Sides of Identical Length GMAT Problem Solving
• If x is a positive number and equals to GMAT Problem Solving
• The Present Ages of Three Persons are in the Proportion of 5:8:7 GMAT Problem Solving
• If x is a Product of 4 Consecutive Integers, and x is Divisible by 11 GMAT Problem Solving
• If y = |3x - 5|/(-x^2 - 3) for What Value of x will the Value of y be Greatest GMAT Problem Solving
• An Emergency Vehicle Travels 10 Miles at a Speed of 50 Miles Per Hour GMAT Problem Solving
• How Many Ordered Triplets (a, b, c), Where a, b, and c are Positive Integers GMAT Problem Solving
• At a Dinner Party, 5 People are to be Seated Around a Circular Table GMAT Problem Solving
• If The Product of 3 Consecutive Integers is 210, Then The Sum of The GMAT Problem Solving
• If the Points (a, 0) , (0, b) and (1, 1) are Collinear, What is the Value of 1/a + 1/b? GMAT Problem Solving
• In a Market, the Price of Medium Quality Mangoes is Half that of Good Mangoes GMAT Problem Solving
• The Sun is Approximately 1,400 Million Kilometers from the Planet GMAT Problem Solving
• If ^5\sqrt{-37} then Which of the Following Must be True? GMAT Problem Solving
• A Draining Pipe can Drain a Tank in 12 hours, and a filling Pipe can fill GMAT Problem Solving
• If the Number x3458623y is Divisible by 88, What is the Value of x? GMAT Problem Solving
• In the Sequence a1, a2, a3, ..., a100 the kth term is Defined by ak = 1/k − 1/(k+1) GMAT Problem Solving
• A 20 Litre Mixture of Milk and Water Contains Milk and Water GMAT Problem Solving
• Bottle X is 2/3 full of Water and has half the Capacity of Bottle Y GMAT Problem Solving
• The Sum of Prime Numbers that are Greater than 60 but Less than 70 GMAT Problem Solving
• If x=23^2*25^4*27^6*29^8 and is a Multiple of 26^n, Where n is a Non-Negative GMAT Problem Solving
• Given (x^3 + 12x)/(6x^2 + 8) = (y^3 + 27y)/(9y^2 + 27) GMAT Problem Solving
• If today is Monday, what day of the week will it be in 347 days? GMAT Problem Solving
• What are the Values of P So that the Equation P x(x – 3) + 9 = 0 GMAT Problem Solving
• What is the unit’s digit of {(7^3)^4 - (1973^3)^2} ? GMAT Problem Solving
• Jacob is Now 12 Years Younger than Michael. If 9 Years from Now Michael GMAT Problem Solving
• A Box Contains 20 Electric Bulbs, Out of Which 4 are Defective GMAT Problem Solving
• A Metal Company's Old Machine Makes Bolts at a Constant Rate of 100 GMAT Problem Solving