5. Evaluate The Expression: $3^3 + 3^3 + 3^3 = ?$(a) $3^4$ (b) $9^3$ (c) $3^9$ (d) $27^3$

Understanding Exponents and Operations

When it comes to evaluating expressions, it's essential to understand the rules of exponents and operations. In this article, we'll take a closer look at how to evaluate the expression $3^3 + 3^3 + 3^3$ and determine the correct answer among the given options.

The Power of Exponents

Exponents are a shorthand way of representing repeated multiplication. For example, $3^3$ means $3 \times 3 \times 3$. When we have an exponent, we can multiply the base number by itself as many times as the exponent indicates. In this case, $3^3$ means $3 \times 3 \times 3 = 27$.

Evaluating the Expression

Now that we understand exponents, let's evaluate the expression $3^3 + 3^3 + 3^3$. To do this, we can start by evaluating each term separately. Since each term is $3^3$, we can substitute the value of $3^3$ into each term. This gives us:

$3^3 + 3^3 + 3^3 = 27 + 27 + 27$

Simplifying the Expression

Now that we have the expression in a simpler form, we can add the three terms together. Since each term is $27$, we can add them together as follows:

$27 + 27 + 27 = 81$

Evaluating the Options

Now that we have the value of the expression, let's evaluate the options given. We have four options: $3^4$, $9^3$, $3^9$, and $27^3$. Let's evaluate each option to see which one matches the value of the expression.

Option (a): $3^4$

To evaluate option (a), we need to calculate the value of $3^4$. Since $3^4$ means $3 \times 3 \times 3 \times 3$, we can multiply the base number by itself four times. This gives us:

$3^4 = 3 \times 3 \times 3 \times 3 = 81$

Option (b): $9^3$

To evaluate option (b), we need to calculate the value of $9^3$. Since $9^3$ means $9 \times 9 \times 9$, we can multiply the base number by itself three times. This gives us:

$9^3 = 9 \times 9 \times 9 = 729$

Option (c): $3^9$

To evaluate option (c), we need to calculate the value of $3^9$. Since $3^9$ means $3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3$, we can multiply the base number by itself nine times. This gives us:

$3^9 = 3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3 \times 3 = 19683$

Option (d): $27^3$

To evaluate option (d), we need to calculate the value of $27^3$. Since $27^3$ means $27 \times 27 \times 27$, we can multiply the base number by itself three times. This gives us:

$27^3 = 27 \times 27 \times 27 = 19683$

Conclusion

In conclusion, the correct answer is option (a): $3^4$. This is because $3^4$ equals $81$, which is the value of the expression $3^3 + 3^3 + 3^3$. The other options do not match the value of the expression.

Key Takeaways

• Exponents are a shorthand way of representing repeated multiplication.
• When evaluating an expression with exponents, we can substitute the value of the exponent into the expression.
• To add terms with the same base and exponent, we can add the coefficients of the terms.
• When evaluating options, we need to calculate the value of each option and compare it to the value of the expression.

Final Thoughts

Evaluating expressions with exponents can be a challenging task, but with practice and patience, it can become second nature. By understanding the rules of exponents and operations, we can evaluate expressions with ease and accuracy. Whether you're a student or a professional, mastering the art of evaluating expressions is essential for success in mathematics and beyond.

Understanding Exponents and Operations

In our previous article, we explored the concept of evaluating expressions with exponents. We learned how to evaluate the expression $3^3 + 3^3 + 3^3$ and determine the correct answer among the given options. In this article, we'll take a closer look at some frequently asked questions (FAQs) related to evaluating expressions with exponents.

Q&A: Evaluating Expressions with Exponents

Q: What is the order of operations when evaluating expressions with exponents?

A: When evaluating expressions with exponents, the order of operations is as follows:

1. Evaluate any expressions inside parentheses.
2. Evaluate any exponents (such as squaring or cubing).
3. Evaluate any multiplication and division operations from left to right.
4. Evaluate any addition and subtraction operations from left to right.

Q: How do I evaluate an expression with multiple exponents?

A: When evaluating an expression with multiple exponents, you need to follow the order of operations. First, evaluate any expressions inside parentheses. Then, evaluate any exponents from left to right. Finally, evaluate any multiplication and division operations from left to right.

Q: What is the difference between an exponent and a power?

A: An exponent is a small number that is raised to a power. For example, in the expression $3^4$, the 4 is an exponent and the 3 is the base. A power is the result of raising a base to an exponent. For example, in the expression $3^4$, the result is 81, which is the power.

Q: How do I evaluate an expression with a negative exponent?

A: When evaluating an expression with a negative exponent, you need to follow the rule that $a^{-n} = \frac{1}{a^n}$. For example, in the expression $3^{-2}$, you would evaluate it as $\frac{1}{3^2} = \frac{1}{9}$.

Q: What is the difference between an exponential expression and a polynomial expression?

A: An exponential expression is an expression that contains an exponent, such as $3^4$. A polynomial expression is an expression that contains variables and coefficients, such as $2x^2 + 3x - 1$.

Q: How do I evaluate an expression with multiple terms with the same base and exponent?

A: When evaluating an expression with multiple terms with the same base and exponent, you can add the coefficients of the terms. For example, in the expression $3^3 + 3^3 + 3^3$, you would add the coefficients to get $3 \times 3^3 = 27$.

Conclusion

In conclusion, evaluating expressions with exponents can be a challenging task, but with practice and patience, it can become second nature. By understanding the rules of exponents and operations, we can evaluate expressions with ease and accuracy. Whether you're a student or a professional, mastering the art of evaluating expressions is essential for success in mathematics and beyond.

Key Takeaways

• Exponents are a shorthand way of representing repeated multiplication.
• When evaluating an expression with exponents, you need to follow the order of operations.
• A negative exponent is equal to the reciprocal of the positive exponent.
• An exponential expression is an expression that contains an exponent, while a polynomial expression is an expression that contains variables and coefficients.
• When evaluating an expression with multiple terms with the same base and exponent, you can add the coefficients of the terms.

Final Thoughts

Evaluating expressions with exponents is an essential skill for anyone who wants to succeed in mathematics and beyond. By understanding the rules of exponents and operations, we can evaluate expressions with ease and accuracy. Whether you're a student or a professional, mastering the art of evaluating expressions is a valuable skill that will serve you well throughout your career.