Answer:
here
Step-by-step explanation:
I don't think it simplifies, it should be 103/50
The <em>proposed</em> design of the atrium (<em>V < V'</em>) is possible since its volume is less than the <em>maximum possible</em> atrium.
<h3>Can this atrium be built in the rectangular plot of land?</h3>
The atrium with the <em>maximum allowable</em> radius (<em>R</em>), in feet, is represented in the image attached. The <em>real</em> atrium is possible if and only if the <em>real</em> radius (<em>r</em>) is less than the maximum allowable radius and therefore, the <em>real</em> volume (<em>V</em>), in cubic feet, must be less than than <em>maximum possible</em> volume (<em>V'</em>), in cubic feet.
First, we calculate the volume occupied by the maximum allowable radius:
<em>V' =</em> (8 · π / 3) · (45 ft)³
<em>V' ≈</em> 763407.015 ft³
The <em>proposed</em> design of the atrium (<em>V < V'</em>) is possible since its volume is less than the <em>maximum possible</em> atrium.
To learn more on volumes, we kindly invite to check this verified question: brainly.com/question/13338592
Answer:
c. 40 cubic cm
Step-by-step explanation:
5 x 2 x 4 = 40 cm
Step-by-step explanation:
<h3>Potential energy is the energy stored in an object due to its position relative to some zero position. An object possesses gravitational potential energy if it is positioned at a height above ( or below ) the zero height.</h3><h3>- A raised weight </h3><h3>- Water behind a dam</h3><h3>- A car parked at the top of a hill</h3><h3>- A snow pack ( Potential avalanche )</h3><h3>- A yoyo before it is released</h3><h3>- River water at the top of a water hill</h3><h3>- A book on top of a table before it falls</h3><h3>- A child at the top of a slide</h3>