Last updated on May 26th, 2025
A times table is a chart that shows the results of multiplying a number with whole numbers. Learning the times table helps kids understand multiplication. We use an algebraic system to define multiplication operations for construction, estimation, schoolwork, exams, and more. In this topic, we will learn about the table of 767.
Multiplication has been used by people for over 4000 years. Babylonians were considered the first to use it in clay tablets. Multiplication tables are a result of people's search for easier ways to solve problems. Learning multiplication tables has numerous advantages. Kids can answer quickly if they know their times table, enhancing their understanding skills. Familiarity with tables improves children's memory and confidence.
Multiplying whole numbers (1, 2, 3, 4, 5, and so on) by 767 gives the product of the multiplication table of 767.
Here are some examples:
767 × 1 = 767
767 × 2 = 767 + 767 = 1534
767 × 3 = 767 + 767 + 767 = 2301
767 × 4 = 767 + 767 + 767 + 767 = 3068
767 × 5 = 767 + 767 + 767 + 767 + 767 = 3835
767, 1534, 2301, 3068, 3835, and so on are multiples of 767.
The 767 times table chart shows the multiples of 767. Every result in the chart is obtained by multiplying 767 with other whole numbers, like 1 to 10, and so on.
For example:
767 × 10 = 7670
767 × 11 = 8437
767 × 12 = 9204, and so on.
TABLE OF 767 (1-10) | |
---|---|
767 x 1 = 767 |
767 x 6 = 4602 |
767 x 2 = 1534 |
767 x 7 = 5369 |
767 x 3 = 2301 |
767 x 8 = 6136 |
767 x 4 = 3068 |
767 x 9 = 6903 |
767 x 5 = 3835 |
767 x 10 = 7670 |
TABLE OF 767 (11-20) | |
---|---|
767 x 11 = 8437 |
767 x 16 = 12272 |
767 x 12 = 9204 |
767 x 17 = 13039 |
767 x 13 = 9971 |
767 x 18 = 13806 |
767 x 14 = 10738 |
767 x 19 = 14573 |
767 x 15 = 11505 |
767 x 20 = 15340 |
Understanding the multiplication table of 767 can be challenging because of the larger number involved. But with tips and tricks, it becomes easier. Let’s explore some:
Breaking the numbers into smaller parts makes it easier to learn multiplication.
For example, 767 × 4
Here, 767 can break into 700 + 67
(700 × 4) + (67 × 4) = 2800 + 268
= 3068.
On one side of the flashcard, write the multiplication problems.
For example:
Front: 767 × 3
Back: 2301.
The unit digits in the 767 times table repeat every 5 multiples.
For example: The unit digits repeat in the cycle: 7, 4, 1, 8, 5. After every 5 multiples, the cycle restarts.
While working on the tables of 767, it's common for kids to make some errors. Here are some common mistakes that kids make and tips on how to avoid them.
A farmer harvests 767 apples from his orchard and stores them in crates, with each crate holding 767 apples. How many crates does he need to store all the apples?
1 crate.
Since each crate holds 767 apples and the farmer has 767 apples in total, he needs exactly 1 crate. For example: 767 × 1 = 767.
A concert venue sells VIP tickets for a premium event. Each VIP ticket costs 767 units. If the venue sells 6 VIP tickets, how much revenue do they generate?
4602 units.
To calculate the total revenue from the VIP ticket sales, multiply the price of one VIP ticket (767) by the number of tickets sold (6):
767 × 6 = 4602 units.
A book publisher prints 767 editions of a book, and each edition contains 12 chapters. Calculate the total number of chapters printed.
9204 chapters.
To find the total number of chapters, multiply the number of editions (767) by the number of chapters in each edition (12):
767 × 12 = 9204 chapters.
An engineering team lays down 767 meters of fiber optic cable each day. How many meters of cable will they lay down in 15 days?
11505 meters.
To determine the total length of cable laid in 15 days, multiply the daily amount (767 meters) by the number of days (15):
767 × 15 = 11505 meters.
A company employs 767 people, and each employee works for 7 hours daily. What is the total number of work hours completed by all employees in a single day?
5369 hours.
The total number of work hours done by all employees is calculated by multiplying the number of employees (767) by the hours each works per day (7):
767 × 7 = 5369 hours.
Seyed Ali Fathima S a math expert with nearly 5 years of experience as a math teacher. From an engineer to a math teacher, shows her passion for math and teaching. She is a calculator queen, who loves tables and she turns tables to puzzles and songs.
: She has songs for each table which helps her to remember the tables