469.1 mg = .4691 g. Hope I helped. =)
Answer:
Step-by-step explanation:
The initial population of bacteria is 800 and we know that this number is quadrupling every hour.
We're going to find a function <em>p</em> in terms of <em>t </em>(time) that gives us the population of bacteria at that time. (t is in hours)
This kind of formulas are written as (initial population)(growth radio)^time
Since the population is quadrupling every hour the function in terms of t (where t is expressed in hours) would be:
Answer:
[f(1) - f(3)] / [1–3]
Step-by-step explanation:
<u>Formula</u>
f(x) = 6(2.5)
<u>How to find</u>
The average rate of change over the interval [a,b], or the secant line between the points a and b on the function f(x), is [f(a) - f(b)]/[a-b]. So, substitute a for 1 and b for 3, and you get [f(1) - f(3)] / [1–3]. The quotient of that is your average rate of change.
There are 31 people behind her since 49-17 would equal 32 but you take away 1 person (Jackie) and you're left with 31. The movie ends at 6:07 pm, since 4:30 plus an hour is 5:30. Add another half hour, 6:00. Add the remaining 7 minutes to get 6:07 pm.
Answer:
TRUE IS THE ANSWER
Step-by-step explanation: