Can't figure out how to solve this!
- Thread starter Rengoku0510
- Start date
Otis
Elite Member
- Joined
- Apr 22, 2015
- Messages
- 4,414
I hope that I'm not misunderstanding, but it seems the description above works only for the specific form in this exercise -- assuming n itself is a Whole number.
When I read 'leading coefficient', then for a negative case (in general), I think of
a^(-n + b)
That exponent has a negative leading coefficient, yet we can't say whether the expression represents a power of 'a' or the reciprocal of that power.
Otis
Elite Member
- Joined
- Apr 22, 2015
- Messages
- 4,414
The following may be off-topic, but I'd like to share an alternate simplification.
There are many ways to "simplify" algebraic expressions. Expressions in beginning courses are often cooked up for practicing specific definitions, properties and/or rules.
Later on, when we use our skills to algebraically manipulate given information, there might be a specific goal in mind concerning a specific application in the real world.
For example, later on we might be working with exponential growth over time (of some chemical reaction, perhaps), using a model like this:
y = a*b^t
Let's say the expression given in this thread is an example of some potential data from chemistry experiments. We may simplify it to obtain the exponential form above (treating n as the time variable).
y = (9/125)*(3/125)^n
a = 9/125
b = 3/125
t = n
This alternate simplification can be obtained by applying definitions and proprties, just like the OP did, but with a different goal in mind.
?
There are many ways to "simplify" algebraic expressions. Expressions in beginning courses are often cooked up for practicing specific definitions, properties and/or rules.
Later on, when we use our skills to algebraically manipulate given information, there might be a specific goal in mind concerning a specific application in the real world.
For example, later on we might be working with exponential growth over time (of some chemical reaction, perhaps), using a model like this:
y = a*b^t
Let's say the expression given in this thread is an example of some potential data from chemistry experiments. We may simplify it to obtain the exponential form above (treating n as the time variable).
y = (9/125)*(3/125)^n
a = 9/125
b = 3/125
t = n
This alternate simplification can be obtained by applying definitions and proprties, just like the OP did, but with a different goal in mind.
?