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Original
2026-01-01
Modified
2026-02-28
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<p>The<a>long division</a>method is particularly used for non-perfect square numbers. In this method, we should check the closest perfect square number for the given number. Let us now learn how to find the<a>square root</a>using the long division method, step by step.</p>
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<p>The<a>long division</a>method is particularly used for non-perfect square numbers. In this method, we should check the closest perfect square number for the given number. Let us now learn how to find the<a>square root</a>using the long division method, step by step.</p>
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<p><strong>Step 1:</strong>To begin with, we need to group the numbers from right to left. In the case of 384, we need to group it as 84 and 3.</p>
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<p><strong>Step 1:</strong>To begin with, we need to group the numbers from right to left. In the case of 384, we need to group it as 84 and 3.</p>
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<p><strong>Step 2:</strong>Now we need to find n whose square is<a>less than</a>or equal to 3. We can say n is '1' because 1 × 1 is less than or equal to 3. Now the<a>quotient</a>is 1, and after subtracting 1 × 1 from 3, the<a>remainder</a>is 2</p>
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<p><strong>Step 2:</strong>Now we need to find n whose square is<a>less than</a>or equal to 3. We can say n is '1' because 1 × 1 is less than or equal to 3. Now the<a>quotient</a>is 1, and after subtracting 1 × 1 from 3, the<a>remainder</a>is 2</p>
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<p><strong>Step 3:</strong>Now let us bring down 84, which is the new<a>dividend</a>. Add the old<a>divisor</a>with the same number, 1 + 1, to get 2, which will be our new divisor.</p>
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<p><strong>Step 3:</strong>Now let us bring down 84, which is the new<a>dividend</a>. Add the old<a>divisor</a>with the same number, 1 + 1, to get 2, which will be our new divisor.</p>
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<p><strong>Step 4:</strong>The new divisor will be the sum of the dividend and quotient. Now we get 2n as the new divisor; we need to find the value of n.</p>
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<p><strong>Step 4:</strong>The new divisor will be the sum of the dividend and quotient. Now we get 2n as the new divisor; we need to find the value of n.</p>
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<p><strong>Step 5:</strong>The next step is finding 2n × n ≤ 284. Let us consider n as 9, now 29 × 9 = 261.</p>
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<p><strong>Step 5:</strong>The next step is finding 2n × n ≤ 284. Let us consider n as 9, now 29 × 9 = 261.</p>
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<p><strong>Step 6:</strong>Subtract 261 from 284; the difference is 23, and the quotient is 19.</p>
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<p><strong>Step 6:</strong>Subtract 261 from 284; the difference is 23, and the quotient is 19.</p>
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<p><strong>Step 7:</strong>Since the dividend is less than the divisor, we need to add a decimal point. Adding the decimal point allows us to add two zeroes to the dividend. Now the new dividend is 2300.</p>
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<p><strong>Step 7:</strong>Since the dividend is less than the divisor, we need to add a decimal point. Adding the decimal point allows us to add two zeroes to the dividend. Now the new dividend is 2300.</p>
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<p><strong>Step 8:</strong>Now we need to find the new divisor that is 391 because 391 × 5 = 1955.</p>
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<p><strong>Step 8:</strong>Now we need to find the new divisor that is 391 because 391 × 5 = 1955.</p>
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<p><strong>Step 9:</strong>Subtracting 1955 from 2300, we get the result 345.</p>
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<p><strong>Step 9:</strong>Subtracting 1955 from 2300, we get the result 345.</p>
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<p><strong>Step 10:</strong>Now the quotient is 19.5.</p>
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<p><strong>Step 10:</strong>Now the quotient is 19.5.</p>
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<p><strong>Step 11:</strong>Continue doing these steps until we get two numbers after the decimal point. Suppose if there are no decimal values, continue till the remainder is zero.</p>
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<p><strong>Step 11:</strong>Continue doing these steps until we get two numbers after the decimal point. Suppose if there are no decimal values, continue till the remainder is zero.</p>
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<p>So the square root of √384 is approximately 19.60.</p>
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<p>So the square root of √384 is approximately 19.60.</p>
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