Sorry if wrong but here I go
so basically
you need to find the scale factor so
14/10=1.4 and 21/15=1.4
so I take the scale factor 1.4 and divide by 20
20/1.4= about 14.25 or to be exact 14.2857142857
Hello there, here are the correct answers to your question!
a) The estimated value of the bill would be $24.
b) Yes, the total on the register is reasonable. The estimate is $24, and after subtracting the estimated coupon amount of $2, you get $22, which is very close to $21.77
Here is the work I did to get your answers:
part a:
$2.95 $1.19 $4.61 $1.74 $3.04 $8.83 $1.16 − $0.75 − $1.00
Round to the nearest dollaer amount.
$3 $1 $5 $2 $3 $9 $1 - $1 - $1
Add the values of your purchases (excluding the coupons)
$3 + $1 + $5 + $2 + $3 + $9 + $1
$4 + $7 + $3 + $10
$4 + $20
$24
Part b:
Together, the coupon gives you $-2 off, so subtract $2 from $24
$24 - 2 = $22
So yes, the total is reasonable since $22 is very close to $21.77.
<em>I hope this helps, and have a great day! Please don't hesitate to ask if you need more help with this specific question! </em>
Answer:
They are the same
Step-by-step explanation:
A kilometer is 1000 meters, so you multiply 45 by 1000, to get 45000.
Answer:
I was right after all. 175°
Step-by-step explanation:
Answer:
Step-by-step explanation:
If the position function is
and we are looking for time when the height is 0, we sub in a 0 for h(t) and solve for t:
and the easiest way to do this is to factor by taking the GCF of -40t:
0 = -40t(t - 5) and by the Zero Product Property,
-40t = 0 or t - 5 = 0. Solving for t, we get
t = 0 (which is before the object is launched) and
t = 5 (which is how long it takes the object to go from the ground, up to its max height, and then back to the ground again).
Your choice is c) 5