If the second number were 14 I could answer the question, but as it is, I cannot.
To find the missing number in the equation 73 - 17 = ?, you would subtract 17 from 73. 73 - 17 equals 56. Therefore, the missing number is 56.
26
The solution depends on how many numbers are missing and where they were. If there is only one, If it is between 4 and -5 then -0.5 If it is between -5 and -10 then -8 If it is between -10 and -16 then -13 Of course, the answer would be different if there were more than one number missing.
342
356
To find the missing number, we first perform the calculation: 83 - 17 equals 66. Then, we need to determine what number plus 56 equals 66. The missing number is 10, because 10 + 56 = 66.
149 x 10 to the ninth power in scientific notation looks like this: 149 x 10^9This equates to the number in standard form, which is 149,000,000,000 (149 billion).
Multiplicative identity property
In an addition sum, if the missing number is the first number, for example, x + 5 = 10, then to find x, perform the sum 10 - 5, producing the solution x = 5. In a subtraction sum, if the missing number is the second number, for example, 7 - y = 4, then to find y, perform the sum 7 - 4 = 3, production the solution y = 3.
To find the missing number in the equation 73 - 17 = ?, you would subtract 17 from 73. 73 - 17 equals 56. Therefore, the missing number is 56.
149 + 10 = 159
To find the missing number in the sequence 10, 15, 28, we can look for a pattern in the differences between the numbers. The difference between 10 and 15 is 5, and the difference between 15 and 28 is 13. If we assume a pattern in the differences, the missing number could be 21, which fits as the average of 15 and 28. Thus, the sequence could be 10, 15, 21, 28.
This missing number is 5
149/10 = 14.9
The missing number is 26. The number after 29 is 58.
12. 113/12 = 9 r 5 125/12 = 10 r 5 149/12 = 12 r 5
To calculate the number of atoms in 149 g of calcium, you first need to convert the grams to moles using the molar mass of calcium. The molar mass of Calcium is 40.08 g/mol. Then, you can use Avogadro's number (6.022 x 10^23 atoms/mol) to find the number of atoms in the moles of calcium.