Math Help. .
Senior Member
Joined: Apr 2004
Posts: 404
Likes: 0
From: NN
Originally Posted by AAlmeter
1) 2.7726
2) -.3010
3) .3495
4) .01
5) 1004
6) 31.6667
7) -25
Been a while since Ive done these...could be wrong.
I'll let you know when its a good time for you to stop by and detail my truck.
2) -.3010
3) .3495
4) .01
5) 1004
6) 31.6667
7) -25
Been a while since Ive done these...could be wrong.
I'll let you know when its a good time for you to stop by and detail my truck.
Looks right to me. :o
Senior Member
Joined: Dec 2004
Posts: 5,003
Likes: 27
From: Dover AFB DE / Harrisburg PA
Man I wish my calc three crap was this "easy"....
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
Member
Joined: Oct 2004
Posts: 93
Likes: 0
From: Buffalo, NY
Originally Posted by adrianspeeder
Man I wish my calc three crap was this "easy"....
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
It only gets better....Dif Eqs is next up for you.
Senior Member
Joined: Dec 2004
Posts: 5,003
Likes: 27
From: Dover AFB DE / Harrisburg PA
Originally Posted by AAlmeter
It only gets better....Dif Eqs is next up for you.
Adrianspeeder
Senior Member
Joined: Feb 2002
Posts: 2,616
Likes: 0
From: South Jersey
Originally Posted by adrianspeeder
Man I wish my calc three crap was this "easy"....
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
Basicly you need to know the exp and log rules. Kinda like how a square root will "undo" a squared number, and a square root value squared will be the origional number.
sqr rt of 5 squared is 5.
Same sort of rules for exponents and logs, in that taking a log will "undo" an exponential power
log(10^x) is x
Natural logs work with the "e"
ln(e^x) is x.
So just plug and chug tryin to simplifiy ln's, logs, e's and exponents doing it's opposite funciton.
Adrianspeeder
BREW
