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These are a few fascinating facts regarding the number 23 before we study more about table number 23. There are 23 chromosomal pairs in individuals. The smallest prime number with successive numbers is 23, which is. We can answer problems involving division, multiplication, and LCM involving 23 with some other integers much more easily if we know the 23 multiplication tables.
The repetitive accumulation of the integer 23 for the specified quantity of times is shown in Table 23. Since we were young children in elementary and junior classrooms, we have been learning the fundamentals of mathematics. Among the foundational mathematics concepts is the use of math figures. Students should know tables 24- 27, and up to 30 in addition to table 23 so they can perform computations more rapidly.
Table of 23 is given below:
23×1=23
23×2=46
23×3=69
23×4=92
23×5=115
23×6=138
23×7=161
23×8=184
23×9=207
23×10=230
Reminder Techniques for the Table of 23
Step 1: Make a three-column table.
Step 2: Note down 3 even digits in column number 1 sequentially, then skip 1 and jot down 3 sets of numbers sequentially. Repeat doing this process until you have written all multiples of table 23.
Step 3: List the first three multiples of 3 in column 2. Reduce the values in the fourth row of columns 2 by 1 using the figures provided above. As an illustration, 4, 7, and 10 should each be reduced by one (1 – 4 = 3, 7 = 6, and 10 = 9).
Step 4: Next, deduct 1 from the value mentioned in the previous three rows to obtain some other number of items in column 2. Keep going with this procedure till you reach the multiple versions about which you wish to record the 23 tables.
Step 5: The numerals from column 1 should go in column 3’s tens position, as well as the numerals from column 2, should go in column 3 are one place.
Step 6: The timetable of 23 is represented by the values in column 3.
| Column 1 | Column 2 | Column 3 |
| 2 | 3 | 23 |
| 4 | 6 | 46 |
| 6 | 9 | 69 |
| 9 | 3-1=2 | 92 |
| 11 | 6-1=5 | 115 |
| 13 | 9-1=8 | 138 |
| 16 | 2-1=1 | 161 |
| 18 | 5-1=4 | 184 |
| 20 | 8-1=7 | 207 |
| 23 | 1-1=0 | 230 |
Examples
Question: The digits 46, 56, 21, 92, 102, and 68 are inscribed on six cards that Mary holds. Can you assist Mary in finding the decks that equal 23 times any integer using the tables of 23?
Solution:
The initial multiples of 23 as from tables of 23 include 23, 46, 69, 92, and 115.
There seem to be two cards with both the numerals 46 and 92 amongst the six cards Mary owns. There are no other integers that are multiples of 23 apart from these.
Question: Multiply 3 plus 2 by 23.
Solution: 23 divided by 3 + 2 Equals 3 + 2 (23)
= 3+46=49
So, 49 is equal to 3 + 2 times 23.
Question: What would the solution be if 23 was multiplied by 5 times 23?
Solution:
23 times 5 times is 23. 23 means 23+5(23)
= 23 + 115= 138
Therefore, 23 plus 5 times 23 equals 138.
