A community for students.
Here's the question you clicked on:
 0 viewing
anonymous
 one year ago
PLEASE HELP
Since the bases are different on the left and right sides, you would have to take the natural log of both sides and move the exponent down using log laws (i.e. xlog23 = log6). Then, you can isolate for 'x' by dividing both sides by log23. If the bases were the same, you would have to expand one of the bases into an equivalent expression that matches the base on the other side (i.e. 4^x = 2 would turn into (2^2)^x = 2) and then solve for x by equating the bases.
anonymous
 one year ago
PLEASE HELP Since the bases are different on the left and right sides, you would have to take the natural log of both sides and move the exponent down using log laws (i.e. xlog23 = log6). Then, you can isolate for 'x' by dividing both sides by log23. If the bases were the same, you would have to expand one of the bases into an equivalent expression that matches the base on the other side (i.e. 4^x = 2 would turn into (2^2)^x = 2) and then solve for x by equating the bases.

This Question is Closed
Ask your own question
Sign UpFind more explanations on OpenStudy
Your question is ready. Sign up for free to start getting answers.
spraguer
(Moderator)
5
→ View Detailed Profile
is replying to Can someone tell me what button the professor is hitting...
23
 Teamwork 19 Teammate
 Problem Solving 19 Hero
 Engagement 19 Mad Hatter
 You have blocked this person.
 ✔ You're a fan Checking fan status...
Thanks for being so helpful in mathematics. If you are getting quality help, make sure you spread the word about OpenStudy.