Sum: 16 Product: 48 Difference: 8 Quotient: 3
A number can have only one sum: itself. And it cannot have a product without another number!
no.
Product means to multiply the operands. The product of 5 and 6 is 30. Sum means to add the operands. The sum of 5 and 6 is 11.
To get the product, multiply the first number by the second. To get the sum, add the second number to the first. To get the difference, subtract the smaller number from the larger.
1/x + 1/y = (y+x)/xy But y + x = sum = 150, and xy = product = 40 So sum of reciprocals = 150/40 = 3.75
they were probably always orange
Yes, by definition, the sum of two integers is always an integer. Likewise, the product and difference of two integers is always an integer.
why is there always money for welfare
Sum: 16 Product: 48 Difference: 8 Quotient: 3
The product is the result of a multiplication sum. Since this sum has just one number in the question part, it is impossible to find the product of this single number.
2 3 5 7 11 Sum: 28 Product: 2310
A number can have only one sum: itself. And it cannot have a product without another number!
no.
Product means to multiply the operands. The product of 5 and 6 is 30. Sum means to add the operands. The sum of 5 and 6 is 11.
To get the product, multiply the first number by the second. To get the sum, add the second number to the first. To get the difference, subtract the smaller number from the larger.
Sum of squares? Product?