00000
36
To find the product of a 2-digit number and a 4-digit number that is approximately 500,000, we need to consider the magnitude of the numbers involved. Since a 2-digit number ranges from 10 to 99 and a 4-digit number ranges from 1000 to 9999, their product will be in the range of 10,000 to 99,000,000. To get a product around 500,000, we can estimate that the 2-digit number is around 50 and the 4-digit number is around 10,000. Therefore, the product of a 50 and 10,000 is 500,000.
The answer is 135. 15 times 9 equals 135 27 times 5 equals 135
No.
The number of six digit numbers that you can make from ten different digits ifrepetitions of same digit on the six digit number is allowed is 1 000 000 numbers(including number 000 000).If no repetitions of the the same digit are allowed then you have:10P6 = 10!/(10-6)! = 151 200 different six digit numbers(six digit permutations form 10 different digits).
2178
731 and 137
The number is 21978. 21978 when multiplied by 4 which gives the result 87912 which is in reverse order.
44444
625×2=1250
36
I think you r cheating Mr.Cheater
NO digit multiplied by 3 equals 1. 1*1 is the only equation that equals 1. Answered by: Emilio Aranda_EL Paso, Tx (Emilioa)
To find a two-digit number multiplied by a one-digit number that equals 27, we can consider the factors of 27. The two-digit number must be 27 divided by a one-digit factor. The valid combinations are 27 = 9 × 3, where 9 is a one-digit number, and 27 divided by 3 gives us 9, which is also a one-digit number. Therefore, a valid two-digit number multiplied by a one-digit number to get 27 does not exist since 27 itself is a two-digit number.
In the number 680, the 6 digit is in the tens place. The tens place represents the value of the digit multiplied by 10. Therefore, the value of the 6 digit in 680 is 6 multiplied by 10, which equals 60.
2 digit number
In the number 709, the digit 7 is in the tens place. Therefore, its value is 7 multiplied by 10, which equals 70. The digit 7 represents 70 in this number, as it is in the tens place.