What is 11,900,000,000 written in scientific notation?
11,900,000,000 written in scientific notation is 1.19 x 10^10.
What is 6.16×106 in standard form?
6.16×10^6 in standard form is 6,160,000.
Evaluate.
53−(64÷8)+102
To evaluate the expression, we follow the order of operations (also known as PEMDAS):
First, we perform the division: 64 ÷ 8 = 8.
Next, we subtract: 53 - 8 = 45.
Lastly, we add: 45 + 102 = 147.
Therefore, the value of the expression 53 - (64 ÷ 8) + 102 is 147.
Evaluate.
5^3−(64÷8)+10^2
To evaluate this expression, we follow the order of operations (PEMDAS):
First, we perform the exponentiation: 5^3 = 5 x 5 x 5 = 125.
Next, we perform the division: 64 ÷ 8 = 8.
Now, we perform the exponentiation: 10^2 = 10 x 10 = 100.
Finally, we substitute these values back into the original expression: 125 - 8 + 100 = 217.
Therefore, the value of the expression 5^3 − (64 ÷ 8) + 10^2 is 217.
Evaluate.
2^−2⋅(12⋅3)−5^3
To evaluate this expression, we follow the order of operations (PEMDAS):
First, we perform the exponentiation: 2^(-2) = 1/(2^2) = 1/4.
Next, we perform the multiplication inside the parentheses: (12 x 3) = 36.
Now, we substitute these values back into the expression: 1/4 x 36 - 5^3.
Then, we perform the exponentiation: 5^3 = 5 x 5 x 5 = 125.
Substituting it back: 1/4 x 36 - 125.
Finally, we perform the remaining multiplication and subtraction: 9 - 125 = -116.
Therefore, the value of the expression 2^(-2)⋅(12⋅3)−5^3 is -116.
Evaluate the expression.
27 . ((3^3)^-1)