The answer is Equity Index Insurance. The equity index insurance is a stable life insurance policy that allows policyholders to tie build-up values to a stock market index. The indexed universal life insurance policies characteristically comprise a minimum definite fixed interest rate constituent along with the indexed account selection. The equity index insurance work as the total sum of cash value is accredited with interest founded on increases in an equity index but it is not openly capitalized in the stock market. Some policies permit the policyholder to select numerous index
Answer:
''there will be at most as many POSITIVE rates...''
Explanation:
The measure of investments' rate of return which excludes external factors such as inflation is known as Internal Rate of Return(IRR)
It is used in;
(1). Savings and loans.
(2). Liabilities
(3). Fixed incomes
(4). Private equity and capital management.
(5). Maximizing total present value and so on.
It can be calculate using the formula below:
NPV= C(n)/(1+r)^n = 0
That is internal rate of return can be use in solving NPV = 0.
Therefore, 'With respect to engineering economics and the internal rate of return (IRR), Descartes’ rule of signs indicates there will be at most as many POSITIVE rates of return as there are sign changes in the cash flow profile.''
Had to look for the options and here is my answer. Based on digital forensics's basic methodology, the very first thing that should be done upon investigation is the identification of relevant items of evidentiary value or known as EM. Hope this answers your question.
Answer:
A bank run occurs when many clients withdraw their money from a bank, because they believe the bank may cease to function in the near future
Explanation:
A bank run occurs when many clients withdraw their money from a bank, because they believe the bank may cease to function in the near future
Answer:
$1,500
Explanation:
Given the compounding formula 
And given an investment (P), made at 16% compounded annually (r), and an ending amount of $1,740 (A) at the end of the year (n = 1 year), the original amount invested (P) can be computed as follows.
= P = 1,740/1.16 = 1,500.
Therefore, the original investment was $1,500.
