Answer:
The correct answer is option d.
Explanation:
The most effective model to understand the effect of change of a variable on other variable is by assuming other factors to be constant. This simplifies the model and helps in easily understanding the relationship between the two variables.
Though the assumption of other things being constant does not apply in the real world, it is still used as otherwise change in other factors would complicate the model. If several factors change it would be difficult to understand the relationship between variables.
Here, to study the effect of change in the price of grapes on the market for wine, it is necessary to assume other factors such as income, consumer preferences, etc to be constant.
It can be said that Fruitlicious demonstrates Efficiency
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Explanation:</u></h3>
Efficiency correlates to the quality of your profession, which might involve building manufacturing with more limited waste, utilizing fewer resources or consuming smaller money. Improved efficiency can impede productivity and vice versa. Obtaining the correct sequence of productivity and efficiency assists you optimize your yield while reducing losses.
Added means to look at efficiency is the amount of gained hours of great quality productive product sorted by the number of work hours possible in a day. Essentially to expand manufacturing efficiency you want to create added output in the equivalent amount of time
Answer: (D) Blanket position
Explanation:
The blanket position is one of the type of form that helps in providing the broadcast coverage that covers all the employees in all type of position. It is also know as the blanket fidelity.
The main purpose of the blanket position bond is that for providing the employees theft coverage in the form of coverage securities, money and the properties.
The coverage is basically base on the different types of designed position and may also differ according to the different types of positions.
Therefore, Option (D) is correct.
Answer:
4,838,400
Explanation:
Assume there are already Two sets of machine working.
In the first set, there is 5 machine Operates and in another set, There are 8 machines (13-5) operates.
So Total Production sequence = First sets all combinations x Second sets all combination
= 5! x 8!
= ( 5 x 4 x 3 x 2 x 1 ) x ( 8 x 7 x 6 x 5 x 4 x 3 x 2 x 1 )
= 120 x 40,320
= 4,838,400
So , total number of machine combination is 4,838,400.