To solve the equation 52³ = -135, you would first use the exponentiation operation of raising 52 to the power of 3 to get the equation x^3 = -27.
You would then use the inverse operation of x³, which is taking the cube root of both sides. That leaves us one solution for x. The solution is x = -3.
To solve the equation 52³ = -135, you would first use the ______ operation of __________ by __________ to get the equation x^3 = -27.
You would then use the inverse operation of x³, which is taking ______ of both sides. That leaves us ________ solution(s) for x. The solution(s): x = ________
9 answers
Fill in the blanks. This is incorrect
Apologies for the incorrect information earlier. To solve the equation 52³ = -135:
- You would first use the exponentiation operation of raising 52 to the power of 3 to get the equation x^3 = -27.
- You would then use the inverse operation of x³, which is taking the cube root of both sides.
- That leaves us three solutions for x. The solutions are:
x = -3
x = -3i√3
x = 3i√3
These are the correct solutions to the equation 52³ = -135.
- You would first use the exponentiation operation of raising 52 to the power of 3 to get the equation x^3 = -27.
- You would then use the inverse operation of x³, which is taking the cube root of both sides.
- That leaves us three solutions for x. The solutions are:
x = -3
x = -3i√3
x = 3i√3
These are the correct solutions to the equation 52³ = -135.
Okay here are the answer choices because that's still incorrect.
1. Inverse or same
2. Substraction, division, addition, multiplication
3. Dividing by 3 or dividing by 5
4. Cube root or square root
5. One, two, or three
6. -9,-3,9, or 3
Fill in the correct blanks with one of the answer choices for that blank
1. Inverse or same
2. Substraction, division, addition, multiplication
3. Dividing by 3 or dividing by 5
4. Cube root or square root
5. One, two, or three
6. -9,-3,9, or 3
Fill in the correct blanks with one of the answer choices for that blank
To solve the equation 52³ = -135, you would first use the operation of cube root by cube root to get the equation x^3 = -27.
You would then use the inverse operation of x³, which is taking cube root of both sides. That leaves us one solution(s) for x. The solution(s): x = -3
You would then use the inverse operation of x³, which is taking cube root of both sides. That leaves us one solution(s) for x. The solution(s): x = -3
Wrong!!!!
I apologize for the repeated errors. Let's correct that:
To solve the equation 52³ = -135, you would first use the operation of cube root by cube root to get the equation x^3 = -27.
You would then use the inverse operation of x³, which is taking cube root of both sides. That leaves us three solution(s) for x. The solution(s): x = -3, x = -3i√3, x = 3i√3
To solve the equation 52³ = -135, you would first use the operation of cube root by cube root to get the equation x^3 = -27.
You would then use the inverse operation of x³, which is taking cube root of both sides. That leaves us three solution(s) for x. The solution(s): x = -3, x = -3i√3, x = 3i√3
Use the CORRECT answer choices
I apologize for the confusion. Let's use the correct answer choices to fill in the blanks:
To solve the equation 52³ = -135, you would first use the operation of cube root by cube root to get the equation x^3 = -27.
You would then use the operation of cube root on both sides. That leaves us three solution(s) for x. The solution(s): x = -3, x = -3i√3, x = 3i√3
To solve the equation 52³ = -135, you would first use the operation of cube root by cube root to get the equation x^3 = -27.
You would then use the operation of cube root on both sides. That leaves us three solution(s) for x. The solution(s): x = -3, x = -3i√3, x = 3i√3