Calculate the future value of $3,000 invested at 7% for 5 years

Correct Answer: 7.9

Explanation:

 

 

FV=P(1+r/n)^nt

Correct Answer: 8780.80

Explanation:

when interest is reckoned using compound interest, interest being compounded annually. The difference in the simple interest and compound interest for two years is on account of the interest paid on the first year's interest  Hence 12% of simple interest = 90 => simple interest =90/0.12 =750.

As the simple interest for a year = 750 @ 12% p.a., the principal =750/0.12 = Rs.6250.

If the principal is 6250, then the amount outstanding at the end of 3 years = 6250 + 3(simple interest on 6250) + 3 (interest on simple interest) + 1 (interest on interest on interest) = 6250 +3(750) + 3(90) + 1(10.80) = 8780.80.

Correct Answer: Rs.1261

Explanation:

Clearly, Rate = 5% p.a .,

Time = 3 years

S.I =Rs.1200.

So,Principal

=Rs.(100 x 1200/3x5)

=Rs.8000.

 

Amount

=Rs.[8000 x (1+5/100)³]

=Rs(8000x21/20x21/20x21/20)

= Rs.9261

 

C.I

=Rs.(9261-8000)

=Rs.1261.

Correct Answer: Rs.8820

Explanation:

Amount

=Rs.[8000x(1+5/100)²]

= Rs.[8000 x 21/20x21/20]

= Rs.8820. 

Correct Answer: 3

Correct Answer: 2557.29

Explanation:

First find the present value of $3800,then compare present values:

 

M  = p(1+i/4)^4n

Correct Answer: 19296

Explanation:

The single equivalent payment will be PV + FV.
FV
= Future value of $10,000, 12 months later

$10,000 *(1.0075)/12

$10,938.07
PV=
Present value of $10,000, 24 months earlier

$10,000/(1.0075)24

$8358.31
The equivalent single payment is
$10,938.07 + $8358.31
= $19,296.38

Correct Answer: 1276.28

Explanation:

FV
= $1000(1.04)(1.045)(1.05)(1.055)(1.06) =
$1276.14

 the maturity value of the regular GIC is

 

 FV =
$ 1000 x 1 . 05 5=
$1276.28

Correct Answer: 49158

Explanation:

i=j/m

FV
= PV(1+  i)^n

Correct Answer: 1648

Explanation:

FV1
= Future value of $2000, 1 year later

= PV (1+  i)^n