Okay, so you do
<u />
Because the difference will be how much bales of hay Sam stored
and the difference is
<u />
Recall the ideal gas law:
<em>P V</em> = <em>n R T</em>
where
<em>P</em> = pressure
<em>V</em> = volume
<em>n</em> = number of gas molecules
<em>R</em> = ideal gas constant
<em>T</em> = temperature
If both <em>n</em> and <em>T</em> are fixed, then <em>n R T</em> is a constant quantity, so for two pressure-volume pairs (<em>P</em>₁, <em>V</em>₁) and (<em>P</em>₂, <em>V</em>₂), you have
<em>P</em>₁ <em>V</em>₁ = <em>P</em>₂ <em>V</em>₂
(since both are equal to <em>n R T </em>)
Solve for <em>V</em>₂ :
<em>V</em>₂ = <em>P</em>₁ <em>V</em>₁ / <em>P</em>₂ = (104.66 kPa) (525 mL) / (25 kPa) = 2197.86 mL
Answer:
It would be just f(x)=(4x+3) as the +2 in the original equation is translating the graph 2 units up from the x-axis
Step-by-step explanation:
f(x)=(4x+3)+2
f(x)=(4x+3)+2 -2
f(x)=(4x+3)
Answer:
1. 0.95x
Step-by-step explanation:
The amount of the discount is 0.05x, so the discounted price is ...
x - 0.05x = x(1 -0.05) = 0.95x
Answer:
Elbert will Make $968 in 40 hours of work with the raise.
Step-by-step explanation:
Given:
Elbert makes $22 an hour.
He got 10% raise
Money raised on 10% =
Now total money for per hour after raise =
Now to find the total money earned after 40 hours with raise we need to multiply total money for per hour after raise with number of hours.
Total money earned =
Hence, Elbert will Make $968 in 40 hours of work with the raise.