The waiting time at which 10 percent of the people would continue to hold is given as 2.3
<h3>How to solve for the waiting time</h3>
We have to solve for X ~ Exponential(λ).
then E(X) = 1/λ = 3,
= 0.3333
Remember that the cumulative distribution function of X is F(x) = 1 - e^(-λx). ; x is equal to the time in over case
For 10 percent of the people we would have a probability of
10/100 = 0.1
we are to find
P(X ≤ t)
= 1 - e^(0.3333)(t) = 0.1
Our concern is the value of t
Then we take the like terms
1-0.1 = e^(0.3333)(t)
1/0.9 = e^(0.3333)(t)
t = 3 * ln(1/0.9)
= 0.3157
The Jones Family has an annual consumer spending of $82,000. This is calculated using this formula: C = A +MD where C is the consumer spending, A is the autonomous consumption spending, M is the marginal propensity to consume, and D is the disposable income. Thus, the calculation is C = $10,000 + (0.8)($90,000). Giving C a value of $82,000.
Had to look for the options and here is my answer. Based on digital forensics's basic methodology, the very first thing that should be done upon investigation is the identification of relevant items of evidentiary value or known as EM. Hope this answers your question.
Answer: Liability of foreignness
Explanation: In simple words, the extra cost incurred by a company operating in a foreign country as compared to the local companies over there is called the liability of foreignness.
In the given case, the American company incurred extra cost in china due to their lack of local knowledge and discrimination from the locals.
Thus, from the above we can conclude that Malt hanks faced liability of foreignness.
Answer:
a. $8,000.
Explanation:
The computation of the amount of overhead cost assigned to the product I is shown below:
= $40,000 ÷ 2,500 × $500
= $8,000
Hence, the amount of overhead cost assigned to the product I is $8,000
Therefore the correct option is a.