100 times
1,000
In the number 152079, the value of the 5 is 50,000 (5 in the ten-thousands place). In the number 508634, the value of the 5 is 500,000 (5 in the hundred-thousands place). To find how many times smaller the value of the 5 in 152079 is compared to the 5 in 508634, divide 50,000 by 500,000, which equals 1/10. Therefore, the value of the 5 in 152079 is 10 times smaller than that in 508634.
The 5 in the thousands place represents 5,000, while the 5 in the tenths place represents 0.5. To find how many times greater the 5 in the thousands place is than the 5 in the tenths, you divide 5,000 by 0.5, which equals 10,000. Therefore, the 5 in the thousands place is 10,000 times greater than the 5 in the tenths place.
7 in the tens place = the number 70 7 in the thousands place = the number 7000 7000/70= 100 It is therefore 100 times bigger.
To determine how many times greater the digit in the ten thousands place is than the digit in the hundreds place, we need to understand the positional value of each digit. The positional value of a digit increases by a factor of 10 as you move from right to left in a number. Therefore, the digit in the ten thousands place is 10 times greater than the digit in the hundreds place.
1,000
In the number 152079, the value of the 5 is 50,000 (5 in the ten-thousands place). In the number 508634, the value of the 5 is 500,000 (5 in the hundred-thousands place). To find how many times smaller the value of the 5 in 152079 is compared to the 5 in 508634, divide 50,000 by 500,000, which equals 1/10. Therefore, the value of the 5 in 152079 is 10 times smaller than that in 508634.
The 5 in the thousands place represents 5,000, while the 5 in the tenths place represents 0.5. To find how many times greater the 5 in the thousands place is than the 5 in the tenths, you divide 5,000 by 0.5, which equals 10,000. Therefore, the 5 in the thousands place is 10,000 times greater than the 5 in the tenths place.
7 in the tens place = the number 70 7 in the thousands place = the number 7000 7000/70= 100 It is therefore 100 times bigger.
10,000 times
Oh, dude, it's like super simple. The digit in the thousands place is 10 times greater than the same digit in the hundreds place. So, if you have a 3 in the thousands place, it's like 30 times greater than the 3 in the hundreds place. Math, man, it's wild.
To determine how many times greater the digit in the ten thousands place is than the digit in the hundreds place, we need to understand the positional value of each digit. The positional value of a digit increases by a factor of 10 as you move from right to left in a number. Therefore, the digit in the ten thousands place is 10 times greater than the digit in the hundreds place.
How many times larger is the 2 in the millions period than the 2 in the thousands period? 269 872 805
ten thousand times greater
In the numeral 86,784, the digit 8 in the ten thousands place represents 80,000. The digit 8 in the thousands place represents 8,000. To find how many times greater the 8 in the ten thousands is compared to the 8 in the thousands, you divide 80,000 by 8,000, which equals 10. Therefore, the 8 in the ten thousands is 10 times greater than the 8 in the thousands.
The answer is in your question, 10,000.
Yes, an atom is much smaller than a bacterium. Atoms are the basic building blocks of matter and are about 100,000 times smaller than the smallest bacteria. Bacteria are complex living organisms made up of many atoms.