From the given description, Chip is using an experimental design called (A) matching.
Matching <u>is a type of experimental design where the researcher divide his or her samples into two groups of treatment conditions, which serves to ensure that before the treatment, both groups have the samples with the same characteristics, thus ensuring that the results of the experiment would not be influenced by any confounding variables that the samples have.</u>
Chip is doing this to ensure that samples that have been influenced by other variables which determine their decision to hire are distributed evenly in both the experimental and control group.
A difference in the subject matters of operas X and Y
Explanation:
A difference in ticket prices , operating expenses , merchandise sales with operas X and Y could directly explain the result indicated about the given statement.
The costs of goods produced is typically included in the balance sheet as a separate item. The residual expenditures not included in COGS are operating expenses. Customer selling is carried out by merchandising, whereas the term "sales" applies to a customer who simply purchases a product and performs a buying transaction.
Answer:
$300
Explanation:
Given that s a health insurance program with co-payments of $10 per doctor visit.
Thus,
amount paid by insurance in 1 visit = $10
Amount paid by insurance in 6 visit = $10*6 = $60
Total bill charged by the doctor in 6 visit = 360
Amount paid by the consumer = Total bill charged by the doctor in 6 visit - Amount paid by consumer in 6 visit = $360 - $60 = $300
Since , consumer is the third party payer he pays $300 out of total $360 bill charged by the doctor.
In fraction ,portion of bill paid by the third party payer = 300/360 = 5/6
Thus, 5/6 portion of bill is paid by third party payer.
Answer:
The demand function is p= (-2.1)*q + 15.3
Explanation:
The supply function for honey is p=S(q)=0.4*q+2.8, where p is the price in dollars for an 8-oz container and q is the quantity in barrels. The equilibrium price is $4.80. So, the equilibrium quantity is:
4.80=0.4*q+2.8
Solving:
4.80 - 2.8=0.4*q
2=0.4*q
2÷0.4= q
5=q
The demand function, assuming it is linear, is p=m*q+b
The equilibrium quantity is 5 barrels and the equilibrium price is $4.80; and the demand is 4 barrels when the price is $6.90. So:
Isolating the variable "b" from the first equation, you get:
4.80 - m*5= b
Replacing the previous expression in the second equation you get:
6.90=m*4 + 4.80 - m*5
6.90 - 4.80=m*4 - m*5
2.1= (-1)*m
2.1÷(-1)= m
-2.1=m
Replacing the value of "m" in the expression 4.80 - m*5= b you get:
4.80 - (-2.1)*5= b
Solving you get:
15.3= b
So, <u><em>the demand function is p= (-2.1)*q + 15.3</em></u>
