Master Number Formation with Distinct Digits - Intermediate-Advanced Level Problems Number Formation with Distinct Digits INTERMEDIATE ADVANCED

Excel in competitive exams with this self assessment worksheet on Number Formation with Distinct Digits. Worksheet 7 of 10 contains 20 intermediate-advanced-level problems. Target your accuracy improvement skills while practicing number formation with distinct digits shortcut methods, number formation with distinct digits bank exam questions, and number formation with distinct digits ssc cgl.

📝 Worksheet 7 of 10 • 20 questions • ⏱️ Estimated time: 20 minutes • 🎯 Intermediate Advanced level

What you'll learn in this worksheet:

Master number formation with distinct digits shortcut methods through focused practice
Understand the logic behind number formation with distinct digits bank exam questions
Learn step-by-step approaches to accuracy improvement
Master complex problem variations and edge cases
Develop advanced shortcut techniques

Your progress through Number Formation with Distinct Digits

Worksheet 7 of 10 (66% complete)

Question 1

How many 5-digit numbers with distinct digits are divisible by 6?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 6

Step 1 - Determine last digit constraint:
Divisible by 6 means:
Special divisibility rules apply

Step 2 - Count valid numbers:
For divisor 6, the count is 4536

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 4536

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 2

How many 4-digit numbers with distinct digits are odd?

Step-by-Step Solution:

Concept: Counting even/odd numbers with distinct digits.

Given: 4-digit numbers, distinct digits, odd numbers.

Case Analysis for odd numbers:

- Last digit: 1,3,5,7,9 (5 choices)
- First digit: cannot be 0 and cannot be last digit (8 choices)
- Remaining 2 digits: choose from remaining 8 digits and arrange
- Ways = 5 × 8 × P(8, 2) = 5 × 8 × 56 = 2240

Key Principle: Always handle first digit (can't be 0) and last digit (parity constraint) separately.

Question 3

How many 3-digit numbers with distinct digits are divisible by 6?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 3 digits
- Digits must be distinct
- Constraint: Divisible by 6

Step 1 - Determine last digit constraint:
Divisible by 6 means:
Special divisibility rules apply

Step 2 - Count valid numbers:
For divisor 6, the count is 108

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 108

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 4

How many 3-digit numbers with distinct digits are even?

Step-by-Step Solution:

Concept: Counting even/odd numbers with distinct digits.

Given: 3-digit numbers, distinct digits, even numbers.

Case Analysis for even numbers:

Case 1: Last digit = 0
- First digit: 1-9 (9 choices)
- Remaining 1 digits: choose from remaining 8 digits and arrange
- Ways = 9 × P(8, 1) = 9 × 8 = 72

Case 2: Last digit = 2,4,6,8 (4 choices)
- First digit: cannot be 0 and cannot be last digit (8 choices)
- Remaining 1 digits: choose from remaining 8 digits and arrange
- Ways = 4 × 8 × P(8, 1) = 256

Total = 72 + 256 = 328

Key Principle: Always handle first digit (can't be 0) and last digit (parity constraint) separately.

Question 5

How many 5-digit numbers with distinct digits are divisible by 10?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 10

Step 1 - Determine last digit constraint:
Divisible by 10 means:
Last digit must be 0

Step 2 - Count valid numbers:
For divisor 10, the count is 4536

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 4536

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 6

How many 5-digit numbers with distinct digits are divisible by 10?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 10

Step 1 - Determine last digit constraint:
Divisible by 10 means:
Last digit must be 0

Step 2 - Count valid numbers:
For divisor 10, the count is 4536

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 4536

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 7

How many 5-digit numbers with distinct digits are odd?

Step-by-Step Solution:

Concept: Counting even/odd numbers with distinct digits.

Given: 5-digit numbers, distinct digits, odd numbers.

Case Analysis for odd numbers:

- Last digit: 1,3,5,7,9 (5 choices)
- First digit: cannot be 0 and cannot be last digit (8 choices)
- Remaining 3 digits: choose from remaining 8 digits and arrange
- Ways = 5 × 8 × P(8, 3) = 5 × 8 × 336 = 13440

Key Principle: Always handle first digit (can't be 0) and last digit (parity constraint) separately.

Question 8

How many 5-digit numbers with distinct digits have the digit 9 in position 4 (counting from left)?

Step-by-Step Solution:

Concept: Fixing a specific digit at a specific position.

Given:
- Number length: 5
- Digit 9 fixed at position 4
- All digits distinct

Step 1 - Handle position 4:

Position 4 (not first): Fixed as 9 (1 choice)
- First digit: cannot be 0 and cannot be 9 (8 choices)
- Remaining 3 positions: choose from remaining 8 digits and arrange
- Ways = 8 × P(8, 3) = 8 × 336 = 2688

Calculation: 2688

Key Point: When fixing a digit in first position, it cannot be 0.

Question 9

How many 4-digit numbers with distinct digits are greater than 4471?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 3 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 3) = 9 × 504 = 4536

Step 2 - Count those > 4471:
Approximately half of all numbers will be greater than the median.
Answer ≈ 2268

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 10

How many 5-digit numbers with distinct digits are divisible by 5?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 5

Step 1 - Determine last digit constraint:
Divisible by 5 means:
Last digit must be 0 or 5

Step 2 - Count valid numbers:
For divisor 5, the count is 5712

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 5712

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 11

How many 3-digit numbers with distinct digits are greater than 215?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 2 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 2) = 9 × 72 = 648

Step 2 - Count those > 215:
Approximately half of all numbers will be greater than the median.
Answer ≈ 324

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 12

How many 3-digit numbers with distinct digits are divisible by 2?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 3 digits
- Digits must be distinct
- Constraint: Divisible by 2

Step 1 - Determine last digit constraint:
Divisible by 2 means:
Last digit must be even

Step 2 - Count valid numbers:
For divisor 2, the count is 360

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 360

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 13

How many 5-digit numbers with distinct digits are greater than 19060?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 4 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 4) = 9 × 3024 = 27216

Step 2 - Count those > 19060:
Approximately half of all numbers will be greater than the median.
Answer ≈ 13608

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 14

How many 3-digit numbers with distinct digits are greater than 378?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 2 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 2) = 9 × 72 = 648

Step 2 - Count those > 378:
Approximately half of all numbers will be greater than the median.
Answer ≈ 324

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 15

How many 5-digit numbers with distinct digits are greater than 73156?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 4 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 4) = 9 × 3024 = 27216

Step 2 - Count those > 73156:
Approximately half of all numbers will be greater than the median.
Answer ≈ 13608

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 16

How many 5-digit numbers with distinct digits are divisible by 2?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 2

Step 1 - Determine last digit constraint:
Divisible by 2 means:
Last digit must be even

Step 2 - Count valid numbers:
For divisor 2, the count is 22680

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 22680

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 17

How many 5-digit numbers with distinct digits are greater than 82367?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 4 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 4) = 9 × 3024 = 27216

Step 2 - Count those > 82367:
Approximately half of all numbers will be greater than the median.
Answer ≈ 13608

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 18

How many 3-digit numbers with distinct digits are greater than 398?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits greater than a threshold.

Step 1 - Total distinct-digit numbers:
First digit: 1-9 (9 choices)
Remaining 2 digits: choose and arrange from remaining 9 digits
Total = 9 × P(9, 2) = 9 × 72 = 648

Step 2 - Count those > 398:
Approximately half of all numbers will be greater than the median.
Answer ≈ 324

Note: Exact calculation would require case-by-case analysis based on the first few digits.

Question 19

How many 5-digit numbers with distinct digits are divisible by 5?

Step-by-Step Solution:

Concept: Counting numbers with distinct digits and divisibility constraint.

Given:
- Number length: 5 digits
- Digits must be distinct
- Constraint: Divisible by 5

Step 1 - Determine last digit constraint:
Divisible by 5 means:
Last digit must be 0 or 5

Step 2 - Count valid numbers:
For divisor 5, the count is 5712

Step 3 - Verify distinctness:
All digits in the number are different (no repetition allowed).

Calculation: 5712

Key Principle: When forming numbers with distinct digits:
- First digit cannot be 0
- Handle last digit constraints first
- Use permutations for remaining positions

Question 20

How many 4-digit numbers with distinct digits have the digit 1 in position 1 (counting from left)?

Step-by-Step Solution:

Concept: Fixing a specific digit at a specific position.

Given:
- Number length: 4
- Digit 1 fixed at position 1
- All digits distinct

Step 1 - Handle position 1:
Position 1 (first digit): Must be 1 (1 choice)
- Remaining 3 positions: choose from remaining 9 digits (0-9 except 1) and arrange
- Ways = P(9, 3) = 504

Calculation: 504

Key Point: When fixing a digit in first position, it cannot be 0.

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