Answer: historical exchange rate
Explanation:
The temporal method is also referred to as the historical method. Under this method, the currency of a foreign subsidiary is being converted into the currency of the parent company.
It should be noted that under the temporal method, the income statement items which relate to newly recognized assets and liabilities generally are remeasured using the historical exchange rate.
Suppose GetThere Airlines increases their ticket price to $200+10n = 10(20+n)$ dollars. Then the number of tickets they sell is $40,000-1000n = 1000(40-n)$ .<span> Therefore, their total revenue is
</span>
$$10(20+n)\cdot 1000(40-n) = 10000(20+n)(40-n) = 10000(800+20n-n^2).$$
This is maximized when $n=-\left(\frac{20}{2\cdot(-1)}\right)=10$ .<span> Therefore, they should charge </span><span>$200+10\cdot 10 = \boxed{300}$</span><span> dollars per ticket.</span>
Answer:
The answer is c. present value index
Explanation:
Present value index is the ratio decided by dividing net present value of the project by its require initial net cash outflows.
Once having constraint on selecting investment with positive NPV to be made due to lack of fund, a firm's usually use Present value index for further decision making.
The investment with higher present value index shows that it generates more net cash flow or in other words, more efficient and requires less initial cash outflow, and thus usually be chosen over the other ones with lower present value index.
Answer:
Explanation:
Profit is the surplus revenue after a firm has paid all its costs. ... In a capitalist economy, profit plays an important role in creating incentives for business and entrepreneurs. For an incumbent firm, the reward of higher profit will encourage them to try and cut costs and develop new products
Answer:
The correct answer would be $5
Explanation:
The formula to use is "Expected return to player" which is
E(x) = x.p(x)
where x is the return to player if they win
and p(x) is the probability of winning.
So here,
x = $100 (return to player for winning)
p(x) = 1/50 (probability of winning)
Therefore expected return to player is
E(x) = x.p(x)
= $100 x 1/50
= $100/50
= $2
Cost: $7
Expected return to player is $2.
Therefore Loss (to player) is Cost minus Expected return
= $7 - $2 = $5 <---- expected value for the carnival to gain,
The loss to the player is the carnival's gain. It's $5.