Answer:
Owen can afford to keep and drive the car for 4 days.
Step-by-step explanation:
The total owing on the car rental is R(d) = ($77.25/day)d + ($0.12/mile)m ≤ $330. Substitute 1 for d (that is, the rental is for 1 day) and 175 for m:
R(d) = ($77.25/day)(d days) + ($0.12/mile)(175 miles) ≤ $330
= $77.25d + $21 ≤ $330
This simplifies to $77.25d + $21 ≤ $330, or
$77.25d ≤ $309
Solving this by dividing both sides of the above equation by $77.25, we get
d = ($309)/($77.25) = 4
Owen can afford to keep and drive the car for 4 days.
Answer:
h/2
Step-by-step explanation:
A=(a+b) h/2
Well the factors of "72" is→ 1,2,3,4,6,8,9,12,18,24,36,72
To find the factor(s) "72" just write out the muliples that equals 72
3/10 how do you not know that lolol
Use the compound interest formula to solve this question.
The formula is
A=p (1+r/k)^kt
A future value 3000
P amount deposited?
R interest rate 0.04
K compounded 4 times
T time 5years
Solve the formula for p
P=A÷(1+r/k)^kt
P=3,000÷(1+0.04÷4)^(4×5)
p=2,458.63