In this case it's, <span>log(u)^n = nlog(u)
so the answers are either </span><span>4 log (3x) or it could also be </span><span>4[log3 + log x]
</span>There is no need for the solution to be shown because this is a simple rule of properties of logarithms
Answer:
526.39 million
Step-by-step explanation:
The exponential equation can be written as ...
p(t) = 471.56(492.53/471.56)^(t/10)
Then p(25) ≈ 525.75 . . . . million
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The closest answer choice is 526.39 million.
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<em>Comment on the answer choice</em>
Reverse-engineering the answer, we find it was computed using the exponential equation ...
p(t) = 471.56e^(0.0044t)
p(25) = 471.56·1.116278 ≈ 526.39
The k factor in the exponent is <em>inappropriately rounded</em> from 0.004350903. You cannot use a 2-significant-figure constant to arrive at an accurate 5-significant-figure answer.
Answer:
(4 , 12)
Step-by-step explanation:
let's call the number x the other number will be x/3
x + x/3 = 16
4x/3 = 16
4x = 48
x = 12
Answer:
The marginal distribution of style of dress. (C) On Khan Academy
Step-by-step explanation:
Answer:
Final Profit = £11,000
Step-by-step explanation:
Incoming / Outgoing Profit / Cost Events £22,765
Staff £6,711
Security £3,452
Maintenance £500
Merchandise £967
Final Profit = £22,765 - £6,711 - £3,452 - £500 - £967 = £11,135
