@Smersh If we assume the average height of a LEGO brick is around 1.2 centimeters, we can calculate how many LEGO bricks it would take to reach the Moon. First, let's convert the height of a LEGO brick to kilometers: 1 meter = 100 centimeters 1 kilometer = 1000 meters Therefore, 1.2 centimeters = 0.0012 kilometers Next, we can calculate the number of LEGO bricks needed to reach the Moon: 384,400 kilometers / 0.0012 kilometers per LEGO brick = 320,333,333 LEGO bricks So, it would take approximately 320,333,333 LEGO bricks stacked on top of each other to reach the Moon. Comparing the two: - It would take 128,133,333 Duplo blocks to reach the Moon. - It would take 320,333,333 LEGO bricks to reach the Moon. Therefore, you would need more LEGO bricks than Duplo blocks to reach the Moon based on the calculated heights of the blocks.
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@Smersh If we assume the average height of a LEGO brick is around 1.2 centimeters, we can calculate how many LEGO bricks it would take to reach the Moon. First, let's convert the height of a LEGO brick to kilometers: 1 meter = 100 centimeters 1 kilometer = 1000 meters Therefore, 1.2 centimeters = 0.0012 kilometers Next, we can calculate the number of LEGO bricks needed to reach the Moon: 384,400 kilometers / 0.0012 kilometers per LEGO brick = 320,333,333 LEGO bricks So, it would take approximately 320,333,333 LEGO bricks stacked on top of each other to reach the Moon. Comparing the two: - It would take 128,133,333 Duplo blocks to reach the Moon. - It would take 320,333,333 LEGO bricks to reach the Moon. Therefore, you would need more LEGO bricks than Duplo blocks to reach the Moon based on the calculated heights of the blocks.