The Square Root You probably know that 6 ∗ 6 = 36. It follows that 6 is the square root of 36. The square root of a quantity is the number that multiplied by itself equals that quantity. Answer and Explanation: The square root of 12 can be represented in one of two ways: ...
Sometimes a simple question like what is the square root of 64 has an answer that can confuse a few. In this case, we will dispel a couple of myths. MY LATEST VIDEOSThe main objective in this tutorial is to learn a few things about square roots and radicals, so that you are able ...
百度试题 结果1 题目2. What is the square root of 121? 相关知识点: 试题来源: 解析 11 反馈 收藏
A square number is a number obtained by multiplying an integer with itself. Learn the definition, properties, list, facts, examples, and more.
What is the square root of the number whose square is 16( ). A. 2B. 4C. √8D. 16相关知识点: 试题来源: 解析 A The number whose square is 16 is 4. The square root of 4 is 2. 平方等于16的数的平方根是多少( ). A. 2 B. 4 C. √8 D. 16 平方为16的数为4,4的平方根...
Cube root Square root Please enter a real number: Calculate Cube root result: The cube root of 9261 is 21 because 21 × 21 × 21 = 9261. Site map Let's tackle a common question: What's the deal with cube roots? For example, What is the cube root of 9261? or what is the ...
根:有square root、cube root、fourth root以此类推等等,也比较简单。 唯一要注意的是正负号问题: 正数都有一正一负两个偶数次方根 负数有且仅有一个奇数次方根 负数没有偶数次方根 0唯一的平方根是0 💡 If n is an integer, what is the least possi...
百度试题 结果1 题目关于一道数学题.(平方根)What is square root 10c become square root? 相关知识点: 试题来源: 解析 100c2 反馈 收藏
What is the cube root of 128? Simplifying Cube Roots When we express cube roots (and radicals in general), we like to simplify them as much as possible so that their answers are exact, meaning they are not rounded off too soon, jeopardizing the accuracy of further calculations. There are...
Identify Perfect Squares Using the Square RootOne other way to check if a number is a perfect square is by finding out the square root of the number. The integer that is multiplied with itself to find the perfect square is called the “square root” of the perfect square....