how to convert square roots with decimal no
Answers
Step-by-step explanation:
Example 1: Determine the square root of decimal number 17.64 by estimation method.
Solution:
Step 1: The nearest perfect square numbers to 17.64 are 16 and 25.
Step 2: √16 = 4 and √25 = 5. This implies that √17.64 lies between 4 and 5.
Step 3: Check if √17.64 is closer to 4 or 5. Let us consider 4.5 and 5.
Step 4: 4.52 = 20.25, 42 = 16 and 52= 25. Thus, √17.64 lies between 4 and 4.5 and is closer to 4.
Thus, the square root of decimal number 17.64 is closer to 4.We can check for 4.1 and 4.2. 4.12 = 16.81 and 4.22 = 17.64.
Therefore, 4.2 is the square root of 17.64.
Square root of decimals is carried out in the same way as for whole numbers. Square root of a number and squaring a number are inverse operations. The Square of a number is the value of power 2 of the number, while the square root of a number is the number that is multiplied by itself to give the original number.
In this article, let's learn how to find the square root of decimals using solved examples and practice questions.
What is Square Root of Decimals
Square root of decimal is the value of a decimal number to the power 1/2. For example, the square root of 24.01 is 4.9 as (4.9)2 = 24.01. The square root of a decimal number can be calculated by using the estimation method or the long division method.
In the case of long division method, the pairs of whole number parts and fractional parts are separated by using bars. And then, the process of long division is carried out in the same way as any other whole number.
How to Find the Square Root of Decimals?
Square Root by Estimation Method
Estimation and approximation is a reasonable guess of the actual value so as to make calculations easier and realistic. This method also helps in estimating and approximating the square root of a given number. We just need to find the nearest perfect square numbers to the given decimal number to find its approximate square root value.
Let's find the square root of 31.36.
Step 1: Find the nearest perfect square numbers to 31.36. 25 and 36 are the perfect square numbers nearest to 31.36.
Step 2: √25 = 5 and √36 = 6. This implies that √31.36 lies between 5 and 6.
Step 3: Now, we need to see if √31.36 is closer to 5 or 6. Let us consider 5.5 and 6.
Step 4: 5.52 = 30.25 and 62= 36. Thus, √31.36 lies between 5.5 and 6 and is closer to 5.5.
Thus, the square root of 31.36 is close to 5.5.
Square Root by Long Division Method
Long Division method is mainly used in case we need to dividing large numbers into steps or parts, breaking the division problem into a sequence of easier steps. We can find the exact square root of any given number using this method. Let us understand the process step by step, with an example. Let's find the square root of 2.56.
Step 1: Place a bar over every pair of digits of the given decimal number starting from the unit’s place. We will have two pairs, i.e. 2 and 56.
Step 2: We start with the whole number part and divide it by the largest number whose square is less than or equal to that number. Here, the whole number part is 2 and we have 1 x 1 = 1. So, the quotient is 1.
Step 3: Bring down the number, that is the pair of the fractional parts under the next bar to the right of the remainder(that is 1).
Step 4: Add the last digit of the quotient to the divisor, which is 1 + 1 = 2. To the right of the obtained sum( that is 2), find a suitable number that, together with the result of the sum, forms a new divisor for the new dividend (that is, 156) that is carried down. Also, add decimal after 1 in the quotient as we move to the fractional part.
Step 5: The new number in the quotient will have the same number as selected in the divisor, thus the divisor will now be 26 and the quotient will be 1.6, as 26 x 6 = 156. (The condition is the same — as being either less than or equal to the dividend).
Step 6: Continue this process further using a decimal point and adding zeros in pairs to the remainder.
Step 6: The quotient thus obtained will be the square root of the number. Thus, the square root of 2.56 is 1.6.
Step 1: Place a bar over every pair of digits of the number. We will have two pairs, i.e. 1, 12, and 50.
Step 2: We divide 1 by 1 as we have 1 x 1 = 1. So, the quotient is 1 and the remainder is 0.
Step 3: Bring down the number under the next bar, which is 12.
Step 4: Add the last digit of the quotient to the divisor, 1 + 1 = 2. To the right of 2, write 0 as writing 1 will make it 21, and 21 is greater than 12. Now, 20 forms the new divisor.
Step 5: Add decimal after 1 in the quotient.
Step 6: Since 12 is less than 20, bring down the next pair of numbers. Now the dividend is 1250.
Step 7: Now, to the right of 20, write 6 as 206 x 6 = 1236, which is smaller than 1250. Now, 206 forms the new divisor.
Step 8: Continue this process further the same way.
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Answer:
Example 1: Determine the square root of decimal number 17.64 by estimation method.
Solution:
Step 1: The nearest perfect square numbers to 17.64 are 16 and 25.
Step 2: √16 = 4 and √25 = 5. This implies that √17.64 lies between 4 and 5.
Step 3: Check if √17.64 is closer to 4 or 5. Let us consider 4.5 and 5.
Step 4: 4.52 = 20.25, 42 = 16 and 52= 25. Thus, √17.64 lies between 4 and 4.5 and is closer to 4.
Thus, the square root of decimal number 17.64 is closer to 4.We can check for 4.1 and 4.2. 4.12 = 16.81 and 4.22 = 17.64.
Therefore, 4.2 is the square root of 17.64.
Square root of decimals is carried out in the same way as for whole numbers. Square root of a number and squaring a number are inverse operations. The Square of a number is the value of power 2 of the number, while the square root of a number is the number that is multiplied by itself to give the original number.
In this article, let's learn how to find the square root of decimals using solved examples and practice questions.
What is Square Root of Decimals
Square root of decimal is the value of a decimal number to the power 1/2. For example, the square root of 24.01 is 4.9 as (4.9)2 = 24.01. The square root of a decimal number can be calculated by using the estimation method or the long division method.
In the case of long division method, the pairs of whole number parts and fractional parts are separated by using bars. And then, the process of long division is carried out in the same way as any other whole number.
How to Find the Square Root of Decimals?
Square Root by Estimation Method
Estimation and approximation is a reasonable guess of the actual value so as to make calculations easier and realistic. This method also helps in estimating and approximating the square root of a given number. We just need to find the nearest perfect square numbers to the given decimal number to find its approximate square root value.
Let's find the square root of 31.36.
Step 1: Find the nearest perfect square numbers to 31.36. 25 and 36 are the perfect square numbers nearest to 31.36.
Step 2: √25 = 5 and √36 = 6. This implies that √31.36 lies between 5 and 6.
Step 3: Now, we need to see if √31.36 is closer to 5 or 6. Let us consider 5.5 and 6.
Step 4: 5.52 = 30.25 and 62= 36. Thus, √31.36 lies between 5.5 and 6 and is closer to 5.5.
Thus, the square root of 31.36 is close to 5.5.
Square Root by Long Division Method
Long Division method is mainly used in case we need to dividing large numbers into steps or parts, breaking the division problem into a sequence of easier steps. We can find the exact square root of any given number using this method. Let us understand the process step by step, with an example. Let's find the square root of 2.56.
Step 1: Place a bar over every pair of digits of the given decimal number starting from the unit’s place. We will have two pairs, i.e. 2 and 56.
Step 2: We start with the whole number part and divide it by the largest number whose square is less than or equal to that number. Here, the whole number part is 2 and we have 1 x 1 = 1. So, the quotient is 1.
Step 3: Bring down the number, that is the pair of the fractional parts under the next bar to the right of the remainder(that is 1).
Step 4: Add the last digit of the quotient to the divisor, which is 1 + 1 = 2. To the right of the obtained sum( that is 2), find a suitable number that, together with the result of the sum, forms a new divisor for the new dividend (that is, 156) that is carried down. Also, add decimal after 1 in the quotient as we move to the fractional part.
Step 5: The new number in the quotient will have the same number as selected in the divisor, thus the divisor will now be 26 and the quotient will be 1.6, as 26 x 6 = 156. (The condition is the same — as being either less than or equal to the dividend).
Step 6: Continue this process further using a decimal point and adding zeros in pairs to the remainder.
Step 6: The quotient thus obtained will be the square root of the number. Thus, the square root of 2.56 is 1.6.
Step 1: Place a bar over every pair of digits of the number. We will have two pairs, i.e. 1, 12, and 50.
Step 2: We divide 1 by 1 as we have 1 x 1 = 1. So, the quotient is 1 and the remainder is 0.
Step 3: Bring down the number under the next bar, which is 12.
Step 4: Add the last digit of the quotient to the divisor, 1 + 1 = 2. To the right of 2, write 0 as writing 1 will make it 21, and 21 is greater than 12. Now, 20 forms the new divisor.
Step 5: Add decimal after 1 in the quotient.
Step 6: Since 12 is less than 20, bring down the next pair of numbers. Now the dividend is 1250.
Step 7: Now, to the right of 20, write 6 as 206 x 6 = 1236, which is smaller than 1250. Now, 206 forms the new divisor.
Step 8: Continue this process further the same way.
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Step-by-step explanation: