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How to Find the Biggest Prime Factor and Other Fun Math Tricks

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Shaivi Ramisetti

5/10/2023

Arithmetic

ratio and rate

How to Find the Biggest Prime Factor and Other Fun Math Tricks

Learning about prime factors, divisibility rules, and finding common multiples and divisors is essential for mastering seventh-grade mathematics.

Como encontrar el factor primo más grande de un conjunto de números involves breaking down numbers into their prime factors systematically. Start by dividing the number by the smallest possible prime number (usually 2) and continue until you can't divide anymore. Then move to the next prime number (3, 5, 7, etc.) and repeat the process. The largest prime factor will be the biggest number in your prime factorization.

Understanding reglas de divisibilidad para matemáticas de séptimo grado helps students quickly determine if a number is divisible by another without performing long division. For example, a number is divisible by 2 if its last digit is even, by 3 if the sum of its digits is divisible by 3, and by 5 if it ends in 0 or 5. These rules make factoring and finding common factors much easier. When working with cómo calcular el mínimo común múltiplo y el máximo común divisor, students learn to find relationships between numbers. The Least Common Multiple (LCM) is the smallest positive number that is divisible by two or more numbers, while the Greatest Common Divisor (GCD) is the largest number that divides evenly into two or more numbers. To find these, first break down each number into its prime factors. For the LCM, multiply all prime factors using the highest power in which they appear in any of the numbers. For the GCD, multiply the prime factors that are common to all numbers using the lowest power in which they appear.

These concepts are interconnected and build upon each other. Understanding prime factorization leads to better comprehension of divisibility rules, which in turn makes finding LCM and GCD more manageable. Students who master these concepts develop stronger problem-solving skills and a deeper understanding of number relationships, preparing them for more advanced mathematical concepts in higher grades.

...

5/10/2023

130

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Understanding Prime and Composite Numbers in Mathematics

Prime numbers form the building blocks of mathematics, serving as unique numerical elements that can only be divided by 1 and themselves. When working with cómo calcular el mínimo común múltiplo y el máximo común divisor, understanding prime numbers becomes essential.

Definition: A prime number is a natural number greater than 1 that has exactly two factors: 1 and itself. Examples include 2, 3, 5, 7, 11, 13, 17, 19, etc.

Composite numbers, in contrast, have three or more factors. For example, 12 can be factored as 2 × 2 × 3, making it a composite number. This fundamental distinction helps students grasp more complex mathematical concepts like factorization and divisibility.

When examining numbers on a hundred chart, patterns emerge that help identify prime and composite numbers. These patterns are particularly useful when como encontrar el factor primo más grande de un conjunto de números. The systematic arrangement reveals that prime numbers become less frequent as numbers get larger.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Essential Divisibility Rules for Middle School Mathematics

Understanding reglas de divisibilidad para matemáticas de séptimo grado helps students quickly determine if numbers are divisible by specific values without performing long division.

Highlight: Key divisibility rules include:

  • For 2: Last digit must be even
  • For 3: Sum of digits must be divisible by 3
  • For 5: Last digit must be 0 or 5
  • For 10: Number must end in 0

These rules become particularly useful when working with larger numbers. For example, to check if 810 is divisible by 3, add its digits 8+1+0=98+1+0=9. Since 9 is divisible by 3, 810 is also divisible by 3. This method saves time and reduces calculation errors.

The divisibility rule for 6 combines the rules for 2 and 3, as 6 is the product of these numbers. A number is divisible by 6 if it's even and the sum of its digits is divisible by 3.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Advanced Divisibility Rules and Applications

More complex divisibility rules exist for numbers like 7 and 8, requiring specific mathematical procedures. For 7, double the last digit and subtract it from the rest of the number - if the result is divisible by 7, the original number is too.

Example: For 112:

  1. Double the last digit 22: 2 × 2 = 4
  2. Subtract from remaining digits: 11 - 4 = 7
  3. Since 7 is divisible by 7, 112 is divisible by 7

For 8, examine the last three digits - if they form a number divisible by 8, the entire number is divisible by 8. This rule helps when working with larger numbers and checking divisibility quickly.

The rule for 9 follows a pattern similar to 3 - add all digits, and if the sum is divisible by 9, the original number is too.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Greatest Common Factor and Real-World Applications

The Greatest Common Factor GCFGCF represents the largest number that divides evenly into two or more numbers. This concept has practical applications in various real-world scenarios.

Vocabulary: Factor trees are visual tools used to find prime factorizations and determine the GCF of numbers.

When finding the GCF:

  1. Create factor trees for each number
  2. Identify common prime factors
  3. Multiply these common factors together

This process helps solve practical problems like:

  • Determining equal group sizes
  • Finding optimal packaging quantities
  • Calculating pattern repetitions
  • Solving rate and ratio problems

Remember that the GCF cannot exceed the smallest number being factored, which helps verify calculations.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Finding Least Common Multiples and Prime Factorization

Understanding how to find least common multiples LCMLCM is essential for working with numbers and fractions. The process involves analyzing multiples and using prime factorization to find the smallest number that is divisible by two or more numbers.

When finding the LCM, start by listing out the multiples of each number. For example, with numbers 4 and 5:

  • Multiples of 4: 4, 8, 12, 16, 20, 24...
  • Multiples of 5: 5, 10, 15, 20, 25... Here, 20 is the least common multiple since it's the smallest number that appears in both lists.

Definition: The least common multiple LCMLCM of two or more numbers is the smallest positive number that is divisible by each of the given numbers.

For larger numbers, using prime factorization makes finding the LCM more efficient. Follow these steps:

  1. Create prime factor trees for each number
  2. Identify common prime factors
  3. Include the highest power of each prime factor
  4. Multiply these factors together

Example: To find the LCM of 12 and 18

  • 12 = 2 × 2 × 3
  • 18 = 2 × 3 × 3
  • LCM = 2 × 2 × 3 × 3 = 36
Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Understanding Ratios and Their Different Forms

Ratios are fundamental mathematical concepts that compare quantities through division. They can be expressed in three different forms, making them versatile tools for mathematical analysis and real-world applications.

Definition: A ratio is a comparison of two quantities by division, expressed as a fraction, using the word "to," or with a colon.

When working with ratios, it's crucial to maintain consistency in the order of comparison. For example, in a fruit basket containing 6 apples and 4 bananas:

  • Fraction form: 4/6
  • Word form: 4 to 6
  • Colon form: 4:6

Ratios can also compare multiple quantities. For instance, when comparing parts to a whole or combining different elements:

  • Parts to whole: 3 oranges to 13 total fruits
  • Combined quantities: 10 apples+bananasapples + bananas to 3 oranges

Highlight: Always simplify ratios to their lowest terms by dividing both quantities by their greatest common factor.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Understanding Rates and Unit Rates

Rates and unit rates are essential concepts that help us understand relationships between different quantities measured in different units. These mathematical tools are particularly useful in everyday situations involving speed, pricing, and consumption.

Vocabulary: A rate compares quantities measured in different units, while a unit rate is simplified to have a denominator of 1.

Understanding unit rates helps in practical decision-making. For example:

  • Reading speed: 200 words per minute
  • Earnings: $12.50 per hour
  • Distance: 60 miles per hour

When solving rate problems, follow these steps:

  1. Write the rate as a fraction
  2. Divide to find the unit rate
  3. Apply the unit rate to solve the problem

Example: If someone earns 225in18hours,divide225 in 18 hours, divide 225 ÷ 18 to find the hourly rate of $12.50 per hour.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Working with Ratio Tables and Equivalent Ratios

Ratio tables are powerful tools for organizing and finding equivalent ratios. They help visualize relationships between quantities and make scaling calculations more straightforward.

Definition: A ratio table consists of columns filled with pairs of numbers that maintain the same ratio relationship.

Understanding equivalent ratios is crucial for:

  • Recipe scaling
  • Unit conversions
  • Proportional relationships
  • Problem-solving

When working with ratio tables, use scaling strategies:

  • Scale up by multiplying both quantities by the same number
  • Scale down by dividing both quantities by the same number
  • Find missing values using known relationships

Example: In a recipe requiring 5 cups of water for 1 cup of beans: Water: 5 10 15 20 Beans: 1 2 3 4

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

View

Understanding Ratio Tables and Graphing Ordered Pairs

When working with ratios and proportional relationships, graphing ordered pairs helps visualize how quantities change together. A ratio table shows corresponding values that maintain the same relationship, which can then be plotted on a coordinate plane to reveal patterns.

Definition: A coordinate plane consists of two perpendicular number lines - the horizontal x-axis and vertical y-axis - that intersect at the origin 0,00,0. Points are located using ordered pairs x,yx,y where x represents the horizontal position and y represents the vertical position.

Let's explore this through a practical example of tracking distance traveled on a scooter over time. The ratio table shows time inhoursin hours in the first column and distance inmilesin miles in the second column. For instance, after 1 hour, the scooter travels 4 miles, giving us the ordered pair 1,41,4. After 2 hours, it travels 8 miles, giving us 2,82,8, and so on. When we plot these points, they form a straight line, indicating a constant rate of speed.

The relationship between time and distance in this case is proportional - as time doubles, distance doubles as well. We can see this pattern both in the ratio table and in the resulting graph. Each point represents a time-distance pair that maintains this 4:1 ratio. For example, in 3 hours the scooter travels 12 miles 3,123,12, and in 4 hours it travels 16 miles 4,164,16.

Example: Time xx | Distance yy | Ordered Pair 1 | 4 | 1,41,4 2 | 8 | 2,82,8 3 | 12 | 3,123,12 4 | 16 | 4,164,16

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Arithmetic

130

May 10, 2023

13 pages

How to Find the Biggest Prime Factor and Other Fun Math Tricks

Learning about prime factors, divisibility rules, and finding common multiples and divisors is essential for mastering seventh-grade mathematics.

Como encontrar el factor primo más grande de un conjunto de númerosinvolves breaking down numbers into their prime factors systematically. Start... Show more

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

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Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Understanding Prime and Composite Numbers in Mathematics

Prime numbers form the building blocks of mathematics, serving as unique numerical elements that can only be divided by 1 and themselves. When working with cómo calcular el mínimo común múltiplo y el máximo común divisor, understanding prime numbers becomes essential.

Definition: A prime number is a natural number greater than 1 that has exactly two factors: 1 and itself. Examples include 2, 3, 5, 7, 11, 13, 17, 19, etc.

Composite numbers, in contrast, have three or more factors. For example, 12 can be factored as 2 × 2 × 3, making it a composite number. This fundamental distinction helps students grasp more complex mathematical concepts like factorization and divisibility.

When examining numbers on a hundred chart, patterns emerge that help identify prime and composite numbers. These patterns are particularly useful when como encontrar el factor primo más grande de un conjunto de números. The systematic arrangement reveals that prime numbers become less frequent as numbers get larger.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Essential Divisibility Rules for Middle School Mathematics

Understanding reglas de divisibilidad para matemáticas de séptimo grado helps students quickly determine if numbers are divisible by specific values without performing long division.

Highlight: Key divisibility rules include:

  • For 2: Last digit must be even
  • For 3: Sum of digits must be divisible by 3
  • For 5: Last digit must be 0 or 5
  • For 10: Number must end in 0

These rules become particularly useful when working with larger numbers. For example, to check if 810 is divisible by 3, add its digits 8+1+0=98+1+0=9. Since 9 is divisible by 3, 810 is also divisible by 3. This method saves time and reduces calculation errors.

The divisibility rule for 6 combines the rules for 2 and 3, as 6 is the product of these numbers. A number is divisible by 6 if it's even and the sum of its digits is divisible by 3.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Advanced Divisibility Rules and Applications

More complex divisibility rules exist for numbers like 7 and 8, requiring specific mathematical procedures. For 7, double the last digit and subtract it from the rest of the number - if the result is divisible by 7, the original number is too.

Example: For 112:

  1. Double the last digit 22: 2 × 2 = 4
  2. Subtract from remaining digits: 11 - 4 = 7
  3. Since 7 is divisible by 7, 112 is divisible by 7

For 8, examine the last three digits - if they form a number divisible by 8, the entire number is divisible by 8. This rule helps when working with larger numbers and checking divisibility quickly.

The rule for 9 follows a pattern similar to 3 - add all digits, and if the sum is divisible by 9, the original number is too.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

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Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Greatest Common Factor and Real-World Applications

The Greatest Common Factor GCFGCF represents the largest number that divides evenly into two or more numbers. This concept has practical applications in various real-world scenarios.

Vocabulary: Factor trees are visual tools used to find prime factorizations and determine the GCF of numbers.

When finding the GCF:

  1. Create factor trees for each number
  2. Identify common prime factors
  3. Multiply these common factors together

This process helps solve practical problems like:

  • Determining equal group sizes
  • Finding optimal packaging quantities
  • Calculating pattern repetitions
  • Solving rate and ratio problems

Remember that the GCF cannot exceed the smallest number being factored, which helps verify calculations.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

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By signing up you accept Terms of Service and Privacy Policy

Finding Least Common Multiples and Prime Factorization

Understanding how to find least common multiples LCMLCM is essential for working with numbers and fractions. The process involves analyzing multiples and using prime factorization to find the smallest number that is divisible by two or more numbers.

When finding the LCM, start by listing out the multiples of each number. For example, with numbers 4 and 5:

  • Multiples of 4: 4, 8, 12, 16, 20, 24...
  • Multiples of 5: 5, 10, 15, 20, 25... Here, 20 is the least common multiple since it's the smallest number that appears in both lists.

Definition: The least common multiple LCMLCM of two or more numbers is the smallest positive number that is divisible by each of the given numbers.

For larger numbers, using prime factorization makes finding the LCM more efficient. Follow these steps:

  1. Create prime factor trees for each number
  2. Identify common prime factors
  3. Include the highest power of each prime factor
  4. Multiply these factors together

Example: To find the LCM of 12 and 18

  • 12 = 2 × 2 × 3
  • 18 = 2 × 3 × 3
  • LCM = 2 × 2 × 3 × 3 = 36
Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

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Understanding Ratios and Their Different Forms

Ratios are fundamental mathematical concepts that compare quantities through division. They can be expressed in three different forms, making them versatile tools for mathematical analysis and real-world applications.

Definition: A ratio is a comparison of two quantities by division, expressed as a fraction, using the word "to," or with a colon.

When working with ratios, it's crucial to maintain consistency in the order of comparison. For example, in a fruit basket containing 6 apples and 4 bananas:

  • Fraction form: 4/6
  • Word form: 4 to 6
  • Colon form: 4:6

Ratios can also compare multiple quantities. For instance, when comparing parts to a whole or combining different elements:

  • Parts to whole: 3 oranges to 13 total fruits
  • Combined quantities: 10 apples+bananasapples + bananas to 3 oranges

Highlight: Always simplify ratios to their lowest terms by dividing both quantities by their greatest common factor.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

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By signing up you accept Terms of Service and Privacy Policy

Understanding Rates and Unit Rates

Rates and unit rates are essential concepts that help us understand relationships between different quantities measured in different units. These mathematical tools are particularly useful in everyday situations involving speed, pricing, and consumption.

Vocabulary: A rate compares quantities measured in different units, while a unit rate is simplified to have a denominator of 1.

Understanding unit rates helps in practical decision-making. For example:

  • Reading speed: 200 words per minute
  • Earnings: $12.50 per hour
  • Distance: 60 miles per hour

When solving rate problems, follow these steps:

  1. Write the rate as a fraction
  2. Divide to find the unit rate
  3. Apply the unit rate to solve the problem

Example: If someone earns 225in18hours,divide225 in 18 hours, divide 225 ÷ 18 to find the hourly rate of $12.50 per hour.

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Working with Ratio Tables and Equivalent Ratios

Ratio tables are powerful tools for organizing and finding equivalent ratios. They help visualize relationships between quantities and make scaling calculations more straightforward.

Definition: A ratio table consists of columns filled with pairs of numbers that maintain the same ratio relationship.

Understanding equivalent ratios is crucial for:

  • Recipe scaling
  • Unit conversions
  • Proportional relationships
  • Problem-solving

When working with ratio tables, use scaling strategies:

  • Scale up by multiplying both quantities by the same number
  • Scale down by dividing both quantities by the same number
  • Find missing values using known relationships

Example: In a recipe requiring 5 cups of water for 1 cup of beans: Water: 5 10 15 20 Beans: 1 2 3 4

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Understanding Ratio Tables and Graphing Ordered Pairs

When working with ratios and proportional relationships, graphing ordered pairs helps visualize how quantities change together. A ratio table shows corresponding values that maintain the same relationship, which can then be plotted on a coordinate plane to reveal patterns.

Definition: A coordinate plane consists of two perpendicular number lines - the horizontal x-axis and vertical y-axis - that intersect at the origin 0,00,0. Points are located using ordered pairs x,yx,y where x represents the horizontal position and y represents the vertical position.

Let's explore this through a practical example of tracking distance traveled on a scooter over time. The ratio table shows time inhoursin hours in the first column and distance inmilesin miles in the second column. For instance, after 1 hour, the scooter travels 4 miles, giving us the ordered pair 1,41,4. After 2 hours, it travels 8 miles, giving us 2,82,8, and so on. When we plot these points, they form a straight line, indicating a constant rate of speed.

The relationship between time and distance in this case is proportional - as time doubles, distance doubles as well. We can see this pattern both in the ratio table and in the resulting graph. Each point represents a time-distance pair that maintains this 4:1 ratio. For example, in 3 hours the scooter travels 12 miles 3,123,12, and in 4 hours it travels 16 miles 4,164,16.

Example: Time xx | Distance yy | Ordered Pair 1 | 4 | 1,41,4 2 | 8 | 2,82,8 3 | 12 | 3,123,12 4 | 16 | 4,164,16

Le
"Prime # = has only 2 factors,
itself ex. 3x1
one and
Composite # = has 3 or more factors. ex. 12 = 3x4 or bx 2
2 3
*
5
X@XX以
返13
这以以
(17

Sign up to see the contentIt's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Analyzing Proportional Relationships Through Graphs

Understanding how to interpret graphs of proportional relationships is crucial for solving real-world problems. When we plot ordered pairs from a ratio table, the resulting line always passes through the origin 0,00,0, indicating that when one quantity is zero, the other must also be zero.

The steepness of the line, known as the slope, represents the constant of proportionality - in our scooter example, it's 4 miles per hour. This rate remains constant throughout the journey, which is why the points form a straight line rather than a curve. Students can use this visual representation to make predictions about values not shown in the original ratio table.

Highlight: When graphing proportional relationships:

  • All points should lie on a straight line
  • The line must pass through the origin 0,00,0
  • The slope represents the unit rate
  • Any point on the line represents a valid ratio pair

Graphing ratio relationships helps develop important mathematical reasoning skills. Students learn to translate between different representations of the same relationship - tables, graphs, and equations. This interconnected understanding supports problem-solving in various contexts, from science experiments to financial planning.

Vocabulary:

  • Ordered Pair: A pair of numbers x,yx,y that locate a point on a coordinate plane
  • Origin: The point 0,00,0 where the x-axis and y-axis intersect
  • Unit Rate: The constant ratio between two quantities in a proportional relationship

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Aubrey

iOS user

Best app if you're in Highschool or Junior high. I have been using this app for 2 school years and it's the best, it's good if you don't have anyone to help you with school work.😋🩷🎀

Marco B

iOS user

THE QUIZES AND FLASHCARDS ARE SO USEFUL AND I LOVE THE SCHOOLGPT. IT ALSO IS LITREALLY LIKE CHATGPT BUT SMARTER!! HELPED ME WITH MY MASCARA PROBLEMS TOO!! AS WELL AS MY REAL SUBJECTS ! DUHHH 😍😁😲🤑💗✨🎀😮

Elisha

iOS user

This app is phenomenal down to the correct info and the various topics you can study! I greatly recommend it for people who struggle with procrastination and those who need homework help. It has been perfectly accurate for world 1 history as far as I’ve seen! Geometry too!

Paul T

iOS user

The app is very easy to use and well designed. I have found everything I was looking for so far and have been able to learn a lot from the presentations! I will definitely use the app for a class assignment! And of course it also helps a lot as an inspiration.

Stefan S

iOS user

This app is really great. There are so many study notes and help [...]. My problem subject is French, for example, and the app has so many options for help. Thanks to this app, I have improved my French. I would recommend it to anyone.

Samantha Klich

Android user

Wow, I am really amazed. I just tried the app because I've seen it advertised many times and was absolutely stunned. This app is THE HELP you want for school and above all, it offers so many things, such as workouts and fact sheets, which have been VERY helpful to me personally.

Anna

iOS user

I think it’s very much worth it and you’ll end up using it a lot once you get the hang of it and even after looking at others notes you can still ask your Artificial intelligence buddy the question and ask to simplify it if you still don’t get it!!! In the end I think it’s worth it 😊👍 ⚠️Also DID I MENTION ITS FREEE YOU DON’T HAVE TO PAY FOR ANYTHING AND STILL GET YOUR GRADES IN PERFECTLY❗️❗️⚠️

Thomas R

iOS user

Knowunity is the BEST app I’ve used in a minute. This is not an ai review or anything this is genuinely coming from a 7th grade student (I know 2011 im young) but dude this app is a 10/10 i have maintained a 3.8 gpa and have plenty of time for gaming. I love it and my mom is just happy I got good grades

Brad T

Android user

Not only did it help me find the answer but it also showed me alternative ways to solve it. I was horrible in math and science but now I have an a in both subjects. Thanks for the help🤍🤍

David K

iOS user

The app's just great! All I have to do is enter the topic in the search bar and I get the response real fast. I don't have to watch 10 YouTube videos to understand something, so I'm saving my time. Highly recommended!

Sudenaz Ocak

Android user

In school I was really bad at maths but thanks to the app, I am doing better now. I am so grateful that you made the app.

Greenlight Bonnie

Android user

I found this app a couple years ago and it has only gotten better since then. I really love it because it can help with written questions and photo questions. Also, it can find study guides that other people have made as well as flashcard sets and practice tests. The free version is also amazing for students who might not be able to afford it. Would 100% recommend

Aubrey

iOS user

Best app if you're in Highschool or Junior high. I have been using this app for 2 school years and it's the best, it's good if you don't have anyone to help you with school work.😋🩷🎀

Marco B

iOS user

THE QUIZES AND FLASHCARDS ARE SO USEFUL AND I LOVE THE SCHOOLGPT. IT ALSO IS LITREALLY LIKE CHATGPT BUT SMARTER!! HELPED ME WITH MY MASCARA PROBLEMS TOO!! AS WELL AS MY REAL SUBJECTS ! DUHHH 😍😁😲🤑💗✨🎀😮

Elisha

iOS user

This app is phenomenal down to the correct info and the various topics you can study! I greatly recommend it for people who struggle with procrastination and those who need homework help. It has been perfectly accurate for world 1 history as far as I’ve seen! Geometry too!

Paul T

iOS user