Answer:
Company should load 1,479.9 motorcycles on each truck.
Explanation:
Cost per trip = $1,000
Demand for motorcycles = 300 per day
Cost per engine = $500
Holding cost = 20% of $500
= $100
Assuming that company plant works for 365 days in a year,
Annual demand = 300 motorcycles × 365 days
= 109,500 motorcycles
where,
D = Annual demand in units
S = Set up cost per order
H = Handling cost per order
= 1,479.9
Thus, the company should load 1,479.9 motorcycles on each truck.
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Accurate measurement is VERY important in banking because banking is all about exact calculations. If one balance measure is off, the entire bank report will not be acurate. One little mess up and the entire calculation goes wrong.
Price elasticity of demand is defined by Change in Quantity demanded / Change in Price.
Tom ordered 10 gallons of gas without asking about the price. This means that no matter the price, Tom orders the same quantity of gas (quantity demanded does not change with price). His demand is perfectly inelastic, or 0.
Jerry orders $10 worth of gas. This means that no matter how much it gives him, Jerry will pay $10. The price elasticity of demand depends on how much the price changes by.
For example, if price doubles from $5/gal to $10/gal, demand falls by 50% (2 gallons to 1 gallon), making his price elasticity -0.5
If the price increase 10% from $10/gal to $10.10/gal, demand falls 1% from 1 gal to .99 gallons, making his price elasticity -0.1
You will do 500 divide by 50 that will get you 10. that means quantive production scheduling means they will have less.
