English
CBSESecondary School (English Medium) (5 to 8) Class 8
Textbook Solutions11100
Concept Notes & Videos237
Syllabus

Making use of the cube root table, find the cube root 7342 . - Mathematics

Advertisements
Advertisements

Question

Making use of the cube root table, find the cube root
7342 .

Sum
Advertisements

Solution

We have: \[7300 < 7342 < 7400 \Rightarrow \sqrt[3]{7000} < \sqrt[3]{7342} < \sqrt[3]{7400}\]

From the cube root table, we have: 

\[\sqrt[3]{7300} = 19 . 39 \text{ and }  \sqrt[3]{7400} = 19 . 48\]

For the difference (7400 - 7300), i.e., 100, the difference in values

\[= 19 . 48 - 19 . 39 = 0 . 09\]
∴  For the difference of (7342 - 7300), i.e., 42, the difference in the values
 
\[= \frac{0 . 09}{100} \times 42 = 0 . 0378 = 0 . 037\]
∴ \[\sqrt[3]{7342} = 19 . 39 + 0 . 037 = 19 . 427\]
shaalaa.com
Cube Root Through Prime Factorisation Method
  Is there an error in this question or solution?
Q 13
Chapter 4: Cubes and Cube Roots - Exercise 4.5 [Page 36]

APPEARS IN

RD Sharma Mathematics [English] Class 8
Chapter 4 Cubes and Cube Roots
Exercise 4.5 | Q 13 | Page 36

Video TutorialsVIEW ALL [1]

RELATED QUESTIONS

Find the cube root of the following number by the prime factorisation method.

10648


\[\sqrt[3]{8 \times . . .} = 8\]


\[\sqrt[3]{} . . . = \sqrt[3]{7} \times \sqrt[3]{8}\]


\[\sqrt[3]{\frac{27}{125}} = \frac{. . .}{5}\]


\[\sqrt[3]{\frac{512}{. . .}} = \frac{8}{13}\]


The volume of a cubical box is 474.552 cubic metres. Find the length of each side of the box.


Evaluate:

\[\sqrt[3]{36} \times \sqrt[3]{384}\]

 


Find The cube root of the numbers 3048625, 20346417, 210644875, 57066625 using the fact that  210644875 = 42875 × 4913 .


Making use of the cube root table, find the cube root
5112 .


Making use of the cube root table, find the cube root
34.2 .


Share
Notifications

Englishहिंदीमराठी
Login
Create free account


      Forgot password?
Course
Use app×