Answer:
$4,179
Step-by-step explanation:
According to the scenario, calculation of the given data are as follows,
Total deposit (P)= $3,500
rate of interest = 6%
Rate of interest (semiannual) (r) = 3%
Time = 3 years
Time period (t) (semiannual) = 6
So, we can calculate the total amount after 3 years by using following formula,
FV = P
By putting the value, we get
FV = $3,500 ( 1 + 0.03)^6
FV = $3,500 ( 1.03)^6
= $3,500 × 1.194
= $4,179
I think the answer will be 9.5x
Step-by-step explanation:
120000gallons
÷ 10min=12000 min
y
−
6
=
1
4
(
x
−
4
)
Expanding the right hand side:
y
−
6
=
1
4
x
−
1
Add
6
to both sides:
y
=
1
4
x
−
1
+
6
So the answer is
y
=
1
4
x
+
5
A.
yes, the candle starts high/tall, then as it melts over time it gets smaller and smaller until is all gone.
b.
y = mx + b
y = 4/2x + 8
y= 2x + 8
c.
Well, since it's slope/unit rate is greater/faster it will burn quicker, therefore you will still start at 8 on the y ais, but it would decrease 3 in. each hour, instead of 2, like the orignal problem.