512 = 8 \u00d7 8 \u00d7 8<\/span><\/p>\n Now we can see that the cube root of 512 is 8.<\/span><\/p>\n It can be also written as \\sqrt[3]{512} \\text { or } 512^{1 \/ 3}<\/span>.<\/span><\/p>\n We are going to find out the cube root using two methods:<\/span><\/p>\n <\/span><\/p>\n This is the easiest method to find out the cube roots but it becomes quite lengthy when we have to find cube roots of large numbers.<\/span><\/p>\n We have to follow the following steps<\/span><\/p>\n <\/span><\/p>\n <\/span><\/p>\n 2. Now we can write,<\/span><\/p>\n 512=2 \\times 2 \\times 2 \\times 2 \\times 2 \\times 2 \\times 2 \\times 2 \\times 2<\/span><\/span><\/p>\n <\/span><\/p>\n 3. After getting the prime factors we have to divide them into groups of threes containing the same factors.<\/span><\/p>\n Here the first group contains 2 \u00d7 2 \u00d7 2, the second group contains 2 \u00d7 2 \u00d7 2 and the third group contains 2 \u00d7 2 \u00d7 2.<\/span><\/p>\n 512=(\\underline{2 \\times 2 \\times 2}) \\times(\\underline{2 \\times 2 \\times 2}) \\times(\\underline{2 \\times 2 \\times 2})<\/span><\/span><\/p>\n <\/span><\/p>\n 4. Now we have to take 1 number from each group<\/span><\/p>\n Here we take 2 from the first group, 2 from the second group and 2 from the third group.<\/span><\/p>\n <\/span><\/p>\n 5. We have to multiply the factors we got from each group. <\/span><\/p>\n This method takes less time as compared to the previous one. We can use it for finding cube roots of large numbers that are perfect cubes.<\/span><\/p>\n We have to follow the following steps:<\/span><\/p>\n 1. First, the number is divided by making groups of three digits from the right side.<\/span><\/p>\n If the last group on the left side doesn\u2019t have 3 digits, it is okay and we will consider that group as it is.<\/span><\/p>\n One group is formed in this case as shown below. 512 is the first group<\/span><\/p>\n 2. The unit place of the first group from the right determines the unit place of the cube root of the number.<\/span><\/p>\n Refer to the following lookup table\u00a0<\/span><\/p>\n <\/span><\/p>\n So, the unit place of the first group 512 is 2. By referring to the above table, we know that the unit place of \\sqrt[3]{512}<\/span> <\/span>is 8.<\/span><\/p>\n 3. Therefore we can conclude that 8 is the value of \\sqrt[3]{512}<\/span>.<\/span><\/p>\n <\/span><\/p>\n <\/span><\/p>\n 1. What is the cube root of 4096?<\/b><\/p>\n Solution<\/strong><\/p>\n 4096 = 512 \u00d7 8<\/span><\/p>\n \u221b4096 = \u221b(512 \u00d7 8 )<\/span><\/p>\n \u221b4096 = \u221b(512\u00a0 ) \u00d7 \u221b( 8 )<\/span><\/p>\n We already know that 8 is the cube root of 512 and 2 is the cube root of 8.<\/span><\/p>\n \u221b4096 = 8 \u00d7 2<\/span><\/p>\n \u221b4096 = 16<\/span><\/p>\n <\/span><\/p>\n 2. What is the length of each side of a cube if its volume is 512 m^{3} \\text { ? }<\/span><\/b>?<\/b><\/p>\n Solution<\/strong><\/p>\n The volume of a cube = side \u00d7 side \u00d7 side<\/span><\/p>\n side = cube root of the volume\u00a0<\/span><\/p>\n \u00a0 \u00a0 \u00a0 \u00a0 = \\sqrt[3]{512}<\/span><\/p>\n \u00a0 \u00a0 \u00a0 \u00a0 = 8 m<\/span><\/p>\n [\/et_pb_text][\/et_pb_column][et_pb_column type=”2_5″ module_id=”stickysideR” admin_label=”Column R” _builder_version=”4.10.4″ _module_preset=”default” background_color=”#fdefe0″ custom_padding=”25px|25px|25px|25px|true|true” sticky_position=”top” sticky_offset_top=”-280px” sticky_limit_top=”row” sticky_limit_bottom=”row” sticky_position_tablet=”none” sticky_position_phone=”none” sticky_position_last_edited=”on|desktop” sticky_limit_bottom_tablet=”” sticky_limit_bottom_phone=”” sticky_limit_bottom_last_edited=”on|phone” border_radii=”on|15px|15px|15px|15px” box_shadow_style=”preset3″ global_colors_info=”{}”][et_pb_image src=”https:\/\/eistudymaterial.s3.amazonaws.com\/1080×1080.png” alt=”Free Trial banner” title_text=”Mindspark Free Trial Banner” url=”https:\/\/mindspark.in\/free-trial” align=”center” module_class=”adsimg” _builder_version=”4.11.1″ _module_preset=”default” custom_padding=”||||false|false” border_radii=”on|10px|10px|10px|10px” global_colors_info=”{}” transform_styles__hover_enabled=”on|hover” transform_scale__hover_enabled=”on|hover” transform_translate__hover_enabled=”on|desktop” transform_rotate__hover_enabled=”on|desktop” transform_skew__hover_enabled=”on|desktop” transform_origin__hover_enabled=”on|desktop” transform_scale__hover=”102%|102%”][\/et_pb_image][et_pb_text admin_label=”Explore Other Topics [\/et_pb_text][et_pb_text _builder_version=”4.10.7″ _module_preset=”default” text_line_height=”2.2em” link_font_size=”16px” custom_margin=”||0px||false|false” custom_padding=”10px|15px|10px|28px|true|false” locked=”off” global_colors_info=”{}”]<\/p>\n [\/et_pb_text][et_pb_text admin_label=”Related Concepts [\/et_pb_text][et_pb_text _builder_version=”4.13.1″ _module_preset=”default” text_line_height=”2.2em” link_font_size=”16px” custom_margin=”||0px||false|false” custom_padding=”10px|15px|10px|28px|true|false” locked=”off” global_colors_info=”{}”]<\/p>\n\n
Prime factorization method<\/b><\/h2>\n
\n
![\"\"](\"https:\/\/eistudymaterial.s3.amazonaws.com\/Cube-root-of-512-01-153x300.png\")
<\/span><\/p>\n
<\/span>This product is the cube root of 512.<\/span><\/p>\n![\"\"](\"https:\/\/eistudymaterial.s3.amazonaws.com\/512-300x117.png\")
<\/p>\nEstimation method<\/b><\/h2>\n
![\"\"](\"https:\/\/eistudymaterial.s3.amazonaws.com\/Cube-root-of-3375-01-270x300.png\")
<\/span><\/p>\nSolved Examples<\/b><\/h3>\n
\n” _builder_version=”4.9.11″ _module_preset=”default” header_font=”|700|||||||” header_font_size=”25px” text_orientation=”center” custom_margin=”0px||0px||true|false” custom_padding=”8px|15px|0px|15px|false|true” locked=”off” global_colors_info=”{}”]<\/p>\nExplore Other Topics<\/h1>\n
\n” _builder_version=”4.9.11″ _module_preset=”default” header_font=”|700|||||||” header_font_size=”25px” text_orientation=”center” custom_margin=”0px||0px||true|false” custom_padding=”8px|15px|0px|15px|false|true” locked=”off” global_colors_info=”{}”]<\/p>\nRelated Concepts<\/h1>\n