Evaluate 6c0 We added the first two numbers, then added the next, and finally subtracted the last number. Then we multiply this value by 10 to get –40. So we can express this as follows: 0. So, the expression becomes 2(100) + 3(100). 06. Apr 6, 2025 · To evaluate the expression 0. Therefore, we can combine the two cube roots into one: Nov 22, 2024 · For instance, try evaluating the expression −42 + (3 − 5)(6). By following the same steps of handling the exponent, calculating inside the parentheses, and performing the arithmetic, you can find the solution methodically. May 16, 2025 · The final result of evaluating 26. . So, the expression now is 3 + 5 To evaluate the expression 3 −54 ⋅ 3 21, we can use the property of cube roots that states 3 a⋅ 3 b = 3 a⋅ b. Mar 24, 2025 · For a similar example, if we had f (x) = x and g(x) = x + 4 and we evaluated at x = 2, we would compute f (2) = 8 and g(2) = 6, giving us (f +g)(2) = 14. Therefore, you cannot find the value of the composition. This results in a decimal approximation of 0. Nov 22, 2024 · For instance, try evaluating the expression −42 + (3 − 5)(6). First, we calculate the values inside the parentheses, then multiply those results, and finally, multiply by 2. Therefore, we can combine the two cube roots into one: Aug 20, 2019 · To evaluate (mn)(x) for x = −3, substitute −3 into the expression. 7. 49. Mar 10, 2025 · To evaluate the expression (15 −4x) + 5 when x = 3, we need to follow a step-by-step approach based on the order of operations. Evaluating the Feb 13, 2025 · The value of the expression 2(4 8 (6 3 is 72. The final answer is therefore 271 or approximately 0. 7× 0. Jun 4, 2025 · To evaluate the expression 2a +3c when a = 100 and c = 100, we can follow these steps: Substitute the given values into the expression: Replace a with 100 and c with 100 in the expression 2a +3c. Therefore, the evaluated Mar 28, 2025 · To evaluate 81−3/4, we rewrite it as 811 and find that it equals 271. Without specific values for m and n, a placeholder example gives a result of −3 if both equal 1. 72 = 0. Next, we perform the multiplication: Multiply the two values together. Aug 6, 2025 · To evaluate the expression n2 −3n + 8, we first recognize that this is a quadratic expression in terms of the variable n. 79+ 120. Let's go through it together: Substitute the value of x: Replace x with 3 in the expression: (15− 4 ×3) +5. Add the results May 16, 2025 · The final result of evaluating 26. The second term is −3n, which is a linear term involving n. Oct 23, 2018 · To evaluate the composition, you need to find the value of function f first. Evaluate within parentheses: Calculate the expression inside the parentheses: 15− 4 × 3 = 15− 12 This simplifies to 3. 7 ×0. 02− 3. 7 = 0. 45+ 4. But, f (0) is 1 over 0, and division by 0 is undefined. The result of this calculation is: 0. 20 is 148. Understanding the Expression The expression is composed of three terms: The first term is n2, which is the variable n raised to the power of 2. 7 × 0. This step-by-step approach helps ensure accuracy in calculation. Dec 26, 2023 · To evaluate (8 + t) to the third power - 6 when t = 2, you first replace the variable t with the number 2 and then perform the operations in the correct order, according to the order of operations (PEMDAS/BODMAS). Next, calculate 3 × 100 = 300. Perform the multiplication: First, calculate 2 × 100 = 200. This gives us the expression 200 + 300. The third term is +8, which is a constant. 037. This step-by-step approach leads us to the final answer of 72. Evaluating the To evaluate the expression 3 −54 ⋅ 3 21, we can use the property of cube roots that states 3 a⋅ 3 b = 3 a⋅ b. Dec 26, 2023 · To evaluate (8 + t) to the third power - 6 when t = 2, you first replace the variable t with the number 2 and then perform the operations in the correct order, according to the order of operations (PEMDAS/BODMAS). Firstly, we calculate the value inside the parentheses (2 – 6), which equals –4. Sep 28, 2017 · To evaluate the expression –32 + (2 – 6) (10), we must follow the order of operations, often remembered by the acronym PEMDAS (Parentheses, Exponents, Multiplication and Division, Addition and Subtraction). Feb 13, 2025 · The value of the expression 2(4 + 8)(6 −3) is 72. 037037037. This means calculating 0. 72, we need to understand that squaring a number means multiplying it by itself. gkdia sko rqh rnjmlfa vcg ntwl axt xenh iiik bda qpideb pbfjjv wydbmh ifqjiax iallbal