Table of 107

Created by: Team Maths - Examples.com, Last Updated: August 12, 2024

Table of 107

The multiplication table of 107 provides a sequence of products resulting from multiplying 107 by integers. It is a valuable tool in maths for learning basic arithmetic operations, particularly multiplication, facilitating quicker calculations and helping to solve everyday mathematical problems efficiently.

What is the Multiplication Table of 107?

The multiplication table of 107 is a systematic arrangement where 107 is multiplied by integers, typically ranging from 1 to 10. This table is particularly useful for quick reference and learning in educational settings. For instance, multiplying 107 by 1 yields 107, by 2 yields 214, and so on up to 1070 when multiplied by 10. Such tables not only aid in enhancing calculation speed but also strengthen understanding of arithmetic progressions and patterns, making them essential tools for students and educators alike in grasping basic multiplication concepts.

107 Times Table

The 107 times table lists the products of multiplying 107 by whole numbers, starting from 1 up to 10. This table facilitates quick calculations and helps learners grasp multiplication concepts. It progresses sequentially, making it easy to memorize and apply in practical mathematical problems or educational exercises.

Tips for 107ᵗʰ Table

1. Understand Patterns: Recognize patterns in the products, such as the last digits or how each product increases relative to the previous one.
2. Use Addition: Instead of memorizing each product, add 107 to the previous product. For example, if you know 107 times 3 is 321, then 107 times 4 is 321 plus 107, which equals 428.
3. Break it Down: Split 107 into 100 and 7 for easier multiplication. Multiply the other number by 100 and 7 separately, then add the results. For instance, 4 × 107 = (4×100) + (4×7).
4. Practice Regularly: Repetition is key to memorization. Use flashcards or apps that focus on multiplication tables to reinforce your memory.
5. Relate to Real Life: Apply the multiplication table to real-life scenarios, such as calculating expenses, to better understand and remember the figures.
6. Check Your Work: Use reverse calculations to ensure accuracy. For example, after calculating 107 times 5 as 535, divide 535 by 107 to check if the answer returns to 5.

Table of 107 from 11 to 20

The multiplication table of 107 from 11 to 20 extends basic math learning, providing products from 1177 to 2140. It serves as a useful tool for more advanced multiplication, helping students handle larger numbers and enhancing their numerical fluency and calculation skills.

How to Read 107 Times Tables?

To read the 107 times table, start by multiplying 107 sequentially by numbers, noting each product. This method helps in memorizing and applying multiplication facts efficiently.

• One time 107 is 107.
• Two times 107 is 214.
• Three times 107 is 321.
• Four times 107 is 428.
• Five times 107 is 535.
• Six times 107 is 642.
• Seven times 107 is 749.
• Eight times 107 is 856.
• Nine times 107 is 963.
• Ten times 107 is 1070.

Problem:

Calculate 107 multiplied by 4.

Solution: Four times 107 is 428.

Problem:

If a store sells 107 notebooks and wants to stock up for 6 more days at the same rate, how many notebooks are needed?

Solution: Six times 107 is 642.

Problem:

Find the product of 107 and 9.

Solution: Nine times 107 is 963.

Problem:

Each workshop costs \$107. If someone attends 3 workshops, what is the total cost?

Solution: Three times 107 is 321.

Problem:

A builder needs 8 packs of tiles, each pack costing \$107. Calculate the total expenditure.

Solution: Eight times 107 is 856.

Problem:

A machine produces 107 parts every hour. How many parts does it produce in 10 hours?

Solution: Ten times 107 is 1070.

Problem:

Each student in a class of 7 needs a book costing \$107. What is the total cost for all students?

Solution: Seven times 107 is 749.

Problem:

A subscription costs \$107 annually. What would be the cost over 5 years?

Solution: Five times 107 is 535.

Problem:

An event has 2 sessions, each costing \$107 per participant. What is the cost for one person to attend both?

Solution: Two times 107 is 214.