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Test: Number Play - 2 - Class 6 MCQ


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10 Questions MCQ Test Mathematics (Maths) Class 6 - Test: Number Play - 2

Test: Number Play - 2 for Class 6 2024 is part of Mathematics (Maths) Class 6 preparation. The Test: Number Play - 2 questions and answers have been prepared according to the Class 6 exam syllabus.The Test: Number Play - 2 MCQs are made for Class 6 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Number Play - 2 below.
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Test: Number Play - 2 - Question 1

Which of the following numbers is a supercell in the grid [45, 78, 92, 31, 60]?

Detailed Solution for Test: Number Play - 2 - Question 1

A supercell typically refers to a concept in various contexts such as cellular automata, mathematical grids, or meteorology. However, the term "supercell" isn't clearly defined in terms of a grid of numbers like the one you've provided.
If we are referring to a cell in the grid or the concept of a "supercell" meaning a number with some specific property (e.g., being the largest, smallest, or something else), we can only guess based on patterns in the list.
Given the numbers: 45, 78, 92, 31, 60
92
is the largest number in the grid.
So, based on the assumption that a "supercell" might represent the largest number, the answer would be:
C: 92.

Test: Number Play - 2 - Question 2

How many 3-digit palindromic numbers can be created using the digits 1, 2, and 3?

Detailed Solution for Test: Number Play - 2 - Question 2

A 3-digit palindromic number has the form ABA, where:

  • The first digit (A) and the third digit (A) are the same.
  • The middle digit (B) can be any digit.

Step-by-Step Analysis:

We are given the digits 1, 2, and 3, and we need to form a 3-digit palindromic number.

  1. The first and third digits (A): There are 3 possible choices for A: 1, 2, or 3.
  2. The middle digit (B): The middle digit can be any of the three digits: 1, 2, or 3. Thus, there are 3 possible choices for B.

The total number of possible 3-digit palindromic numbers is:

3 (choices for A) × 3 (choices for B) = 9

There are 9 possible 3-digit palindromic numbers that can be formed using the digits 1, 2, and 3.

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Test: Number Play - 2 - Question 3

How many times does the digit '7' appear when writing all the numbers from 1 to 100?

Detailed Solution for Test: Number Play - 2 - Question 3

Let's find how many times the digit '7' appears in the numbers from 1 to 100.

Step-by-Step Solution:

Step 1: Count the '7's in the Tens Place

The tens place is the second digit of the number. We need to find the numbers that have '7' in the tens place. These numbers are:

  • 70, 71, 72, 73, 74, 75, 76, 77, 78, 79

So, there are 10 numbers that have '7' in the tens place.

Step 2: Count the '7's in the Ones Place

The ones place is the last digit of the number. We need to find the numbers that end with '7'. These numbers are:

  • 7, 17, 27, 37, 47, 57, 67, 77, 87, 97

So, there are 10 numbers that have '7' in the ones place.

Step 3: Total Count of '7's

From the tens place, we have 10 '7's (from 70 to 79).
From the ones place, we have 10 '7's (from 7, 17, 27, etc.).
So, the total number of '7's is:

10 + 10 = 20

The digit '7' appears 20 times when writing all the numbers from 1 to 100.

The correct answer is C: 20.

Test: Number Play - 2 - Question 4

What is the smallest 4-digit number that, when reversed, gives a smaller 4-digit number?

Detailed Solution for Test: Number Play - 2 - Question 4

The problem asks for the smallest 4-digit number that, when reversed, gives a smaller 4-digit number.

  1. Reversing a 4-digit number means swapping its digits in reverse order.

  2. We are looking for a number where its reverse is smaller than the original number.

Let's examine the given options:

  • A: 1000: Reversing 1000 gives 0001, which is not a 4-digit number.

  • B: 1001: Reversing 1001 gives 1001, which is the same number. It does not give a smaller number.

  • C: 1100: Reversing 1100 gives 0011, which is not a 4-digit number.

  • D: 1010: Reversing 1010 gives 0101, which is not a 4-digit number.

So, none of these numbers create a valid 4-digit number when reversed that is smaller.

Thus, A: 1000 is the smallest number when considering the reversal mechanism

Test: Number Play - 2 - Question 5

What is the Kaprekar constant for 4-digit numbers?

Detailed Solution for Test: Number Play - 2 - Question 5

The Kaprekar constant for 4-digit numbers is 6174.

Here's the process to find the Kaprekar constant for any 4-digit number:

  1. Start with any 4-digit number, using at least two distinct digits.
  2. Rearrange the digits to form the largest and smallest possible numbers.
  3. Subtract the smaller number from the larger number.
  4. Repeat the process with the result.
  5. Eventually, you will always reach 6174, which is the Kaprekar constant.

Let's start with the number 3524:

  • Rearrange the digits to form the largest and smallest numbers: 5432 and 2345.
  • Subtract the smaller number from the larger number: 5432 - 2345 = 3087.
  • Repeat the process with 3087: 8730 - 0378 = 8352.
  • Continue until you reach 6174.

The Kaprekar constant for 4-digit numbers is 6174.

Test: Number Play - 2 - Question 6

Which of the following numbers is a palindrome?

Detailed Solution for Test: Number Play - 2 - Question 6

A palindrome is a number (or word) that reads the same forwards and backwards.

Let’s check each option to see if it’s a palindrome:

  • A: 34544: When we reverse it, we get 44543, which is not the same as 34544. So, it’s not a palindrome.

  • B: 12321: When we reverse it, we get 12321, which is the same as the original number. So, this is a palindrome.

  • C: 65457: When we reverse it, we get 75456, which is not the same as 65457. So, it’s not a palindrome.

  • D: 78998: When we reverse it, we get 88997, which is not the same as 78998. So, it’s not a palindrome.

The number that is a palindrome is B: 12321.

So, the correct answer is B: 12321.

Test: Number Play - 2 - Question 7

If a 5-digit palindrome has a third digit that is twice the second digit and the fourth digit that is twice the third, what is the number?

Detailed Solution for Test: Number Play - 2 - Question 7

Structure of a 5-digit palindrome:

A 5-digit palindrome has the form abcba, where:

  • The first digit is a,
  • The second digit is b,
  • The third digit is c,
  • The fourth digit is b,
  • The fifth digit is a.

Conditions:

  1. The third digit ccc is twice the second digit bbb, i.e., c=2b.
  2. The fourth digit bbb is twice the third digit ccc, i.e., b=2c.

Solving:

From the second condition, b=2c. Using this in the first condition c=2b, substitute b=2c into c=2b:

c=2(2c)=4c..

This gives a contradiction, as the only possible solution to c=4c is c=0.

If c=0, then b=2c=0. So, the palindrome becomes a0c0a‾=a000a.

Now, aaa is a non-zero digit (since it's a 5-digit number), and the only palindrome fitting this structure would be 10001.

Final Answer:

The number is 10001

Test: Number Play - 2 - Question 8
What is the correct order of placing the numbers 2180, 9950, 3050 on a number line?
Detailed Solution for Test: Number Play - 2 - Question 8
The numbers 2180, 3050, and 9950 should be placed in ascending order on the number line as 2180, 3050, and 9950.
Test: Number Play - 2 - Question 9
Which of the following is the correct sum of digits for the number 176?
Detailed Solution for Test: Number Play - 2 - Question 9
The sum of the digits of 176 is 1 + 7 + 6 = 14.
Test: Number Play - 2 - Question 10

What is the largest number that can be formed using the digits 6382?

Detailed Solution for Test: Number Play - 2 - Question 10

To form the largest number using the digits 6382, we need to arrange the digits in descending order (from highest to lowest).

The digits are: 6, 3, 8, 2

Arranging them in descending order gives: 8, 6, 3, 2

Thus, the largest number that can be formed is 8632.

Therefore, the correct answer is A: 8632.

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