What Is The Opposite of Square Root? – Example Sentences

Antonyms of square root refer to numbers that, when multiplied by themselves, result in a different number. A square root is a number that, when multiplied by itself, equals a given number. In contrast, the antonyms of square root are numbers that do not have a whole number as their square root.

For instance, while the square root of 9 is 3 because 3 multiplied by itself equals 9, the antonym of the square root for 9 would be any number other than 3 that does not give a whole number when multiplied by itself. Antonyms of square roots can include decimal numbers, fractions, or even irrational numbers.

Understanding the concept of antonyms of square roots is crucial in mathematics to explore the relationship between numbers and their square roots. By recognizing the antonyms of square roots, mathematicians can delve deeper into mathematical operations and solve complex equations involving non-perfect squares.

Example Sentences With Opposite of Square Root

Antonym Sentence with Square Root Sentence with Antonym
Multiply The square root of 16 is 4. Instead of finding the square root, we need to multiply the numbers.
Whole The square root of 25 is 5. The number is not a whole; it is the opposite of a whole.
Product The square root of 9 is 3. The number is not a product; it is the opposite of a product.
Solution Finding the square root of 36. I couldn’t find the solution, so I did not calculate the antonym.
Even The square root of 64 is 8. The number is not even; it is the opposite of an even number.
Calculate Let’s calculate the square root of 49. Instead of calculating, we need to find the antonym.
Integer The square root of 100 is 10. This number is not an integer, it is the opposite of an integer.
Average The square root of 36 is 6. The number is below the average; it is the opposite of an average number.
Rational The square root of 144 is 12. The number is not rational, it is the antonym of a rational number.
Square The square root of 49 is 7. Instead of the square, we are looking for the antonym of the square.
Multiple The square root of 81 is 9. The number is not a multiple, it is the opposite of a multiple.
Division Calculate the square root of 64. Instead of division, we are finding the antonym of division.
Decimal The square root of 16 is 4. The number is not a decimal, it is the opposite of a decimal.
Add Find the square root of 25. Instead of adding, we should find the antonym of adding.
Cubed The square root of 125 is 5. The number is not cubed, it is the oppoiste of being cubed.
Odd The square root of 81 is 9. The number is not odd, it is the opposite of an odd number.
Inverse The square root of 64 is 8. Instead of finding the inverse, we are finding the antonym.
Fraction The square root of 49 is 7. The number is not a fraction, it is the opposite of a fraction.
Exponent Calculate the square root of 81. Instead of an exponent, we are looking for the antonym.
Binary The square root of 100 is 10. The number is not in binary, it is the opposite of binary.
Coefficient The square root of 36 is 6. The antonym of coefficient applies when we cannot use the square root.
Surd The square root of 144 is 12. The number is not a surd, it is the opposite of a surd.
Nonnegative The square root of 1 is 1. The number is nonnegative, the antonym would be negative.
Exponential Calculate the square root of 64. Instead of exponential growth, we are looking for the antonym.
Higher The square root of 25 is 5. The number is not higher, it is the opposite of higher.
Radical The square root of 9 is 3. The number is not a radical, it is the opposite of being a radical.
Natural The square root of 16 is 4. The number is not a natural; it is the opposite of a natural number.
Conjugate The square root of 49 is 7. Instead of looking for a conjugate, we are searching for the antonym.
Reciprocal Calculate the square root of 100. Instead of reciprocal, we are looking for the antonym.
Ascending The square root of 64 is 8. The numbers are not ascending; they are the opposite of being in ascending order.
Algebraic The square root of 36 is 6. The number is not algebraic, it is the opposite of being algebraic.
Minus The square root of 81 is 9. The number is not a minus, it is the opposite of being a negative.
Modulus Find the square root of 121. Instead of modulus, we are looking for the antonym.
Complex The square root of 144 is 12. The number is not complex; it is the opposite of a complex number.
Polynomial The square root of 25 is 5. The number is not a polynomial, it is the opposite of a polynomial.
Subtraction Calculate the square root of 16. Instead of subtracting, we are looking for the antonym.
Dividend The square root of 49 is 7. We are not looking for the dividend, we are looking for the antonym.
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More Example Sentences With Antonyms Of Square Root

Antonym Sentence with Square Root Sentence with Antonym
Multiply To find the square root of a number, you must To multiply a number, you must find its square root
Direct Calculating the square root is the opposite of Calculating the direct value is not the same as finding the square root
Whole The square root of a perfect square is always a The opposite of a perfect square is not always a whole number
Increase When you find the square root of a number, it may When you increase a number, its square root will change as well
Normal The calculation of a square root is different from The process of finding the normal value is not equivalent to calculating the square root
Simple Finding the square root of a number is anything The process of finding the antonym is not as simple as squaring a number
Real Square root of a negative number does not result in a The opposite of a negative number results in a real root
Unknown The square root is known, but the number itself may still be The exact value of an unknown number will become apparent after finding the square root
Ascending When arranging numbers in square root order, they usually The numbers will be placed in ascending order after being solved using their square roots
Clear The process to find the square root may not always be The number might not be clear after finding its square root
Confirmed The specific value of a number may only be found after its The number’s value can only be confirmed by finding its square root
Certain The square root of a number can lead to multiple possibilities, not The number’s root value is certain after the square root has been found
Answer Sometimes, the square root may not be the definite The correct answer can be found only when the square root is explored
Solve Square root problems differ from those requiring to To solve a different type of problem is dissimilar to calculating the square root
Decrease When you find the square root, the value may not When the value decreases, the square root can be used to find the exact number
Solve The process to find square root may seem confusing at But once you solve it, the number will be revealed clearly
Establish When the square root is discovered, an exact The value of the number becomes established after its square root is found
Concentrated Calculations involving square roots are complex and need The opposite is a simpler and more concentrated process
Solve To find the square root may sometimes be difficult, but To solve a problem is not akin to finding the square root
Plain The method to find the square root is not always The number will become more visible and plain after its root is calculated
Normalize The square root calculation is an alteration that is not It is essential to normalize a number before displaying its square root value
Ordinal The square root of numbers is calculated differently compared The numbers will be rearranged based on their ordinal value once the roots are found
Infer The true numerical value of a figure can only be deduced after its We can only infer a number’s exact value by finding its square root
Increase The process to derive the square root does not lead to The value of a number is not meant to increase once the root is solved
Demonstrate Calculating the square root illustrates the To demonstrate the opposite process, one must utilize a square root calculation
Surpass The square root solves for a particular value, but it may not The number’s value can sometimes surpass the value found using the square root
Describe The square root is a method to find the exact To describe a number is not the same as unveiling its square root
Advance The value found after calculating the square root may not The number’s value is not always meant to advance after its square root is solved
Unveil The progression to find the square root unearths the real The real number is unveiled after calculating the square root
Definite The calculated value of a square root may not always give The number’s value becomes definite once its square root is solved
Speculate To find square root is not about guessing or We can only speculate about a number before unveiling its square root
Traditional The process of unlocking a number’s square root is The number’s traditional value may not be identifiable without using the square root
Halt Calculating square root does not impede the The opposite of halt is achieved when the square root of a number is solved
Compound To find square root is different from The number’s value becomes easier to comprehend when the opposite of compound is discovered
Succeed The square root of a number may not necessarily ensure The number’s value may be seen to succeed after finding its square root
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Outro
Antonyms of square root, opposite of square root and square root ka opposite word are the same thing. In conclusion, the opposite of the square root is the square. While the square root of a number seeks to find the value that, when multiplied by itself, equals the original number, squaring a number involves multiplying the number by itself. This relationship demonstrates the inverse operations of finding the square root and squaring a number.

Understanding the concept of squares and square roots is essential in mathematics and various applications, including geometry, physics, and engineering. By knowing how to find the square root of a number and its opposite operation, squaring, individuals can solve equations, analyze data, and make informed decisions in various problem-solving scenarios. Embracing the relationship between squares and square roots enhances mathematical proficiency and fosters analytical thinking skills in a wide range of disciplines.