The rate after its first adjustment is 5%. The ARM adjustment would be controlled by the periodic cap, because the "true rate" or "fully-indexed rate" is
6.00% (1%+5%). Because the periodic cap
prevents the start rate from moving any more than 2%
at any given adjustment, the first move can only go as
high as 5.00%.
Answer:
False.
Explanation:
The concept of "Nash equilibrium" is been by economist and also by "gamers" in game theory. Nash equilibrium is so good for making decisions and the determination of strategies.
In playing this game, the players or participants can use the pure strategy or the mixed strategy. The mixed strategy is the use of different strategies randomly.
"If a player chooses a mixed strategy in a Nash equilibrium, this implies that the payoff from using that mixed strategy is the same as the payoff from using any of the pure strategies in it".
The statement given above is FALSE because the PAYOFF WILL INCREASE IF WE ARE TO PLAY A MIXED STRATEGY.
For instance if we have a head of 1 and -1, and a tail of -1 and 1, the payoff for pure strategy is likely one or minus one but for a mixed strategy it could be zero.
Answer:
initial cash flow is 2,929,000
Explanation:
Attached is the table
5555555 explanation for what you wanna get you know how
Answer:
Price to be paid today = $118.35
Explanation:
<em>The price of a share can be calculated using the dividend valuation model </em>
<em>According to this model the value of share is equal to the sum of the present values of its future cash dividends discounted at the required rate of return. </em>
The model can applied as follows:
PV of dividend = D×(1+r) ^(-n)
D- dividend , r - required rate , n- number of year
D- 9.25, r - 16%, n = 2
PV of dividend = 9.25 × (1.16)^(-2)= 6.9
PV of disposal value
PV of dividend = F × (1+r) ^(-n)
D- disposal value , r - required rate , n- number of year
PV of disposal value = 150 × (1.16)^(-2)= 111.47
Price to be paid today
Total present value = 6.9 + 111.47 = 118.35
Price to be paid today = $118.35
