At sea level, the weight of the atmosphere exerts a pressure of 14.7 pounds per square inch, commonly referred to as 1 atmosphere of pressure. As an object descends in water, pressure $ P $ and depth $ d $ are linearly related. In water, the pressure at a depth of 33 feet is 2 atmospheres, or 29.4 pounds per square inch.

A. Find a linear model that relates pressure $ P $ (in pounds per square inch) to depth $ d $ (in feet).
B. Interpret the slope of the model.
C. Find the pressure at a depth of 80 feet.
D. Find the depth at which the pressure is 3 atmospheres.

A) The equation of the linear model that relates pressure P (in pounds per square inch) to depth d (in feet) is: P = 0.45d + 14.7. B) Integral of the slope of the model = P = 0.45d + 14.7. C) The pressure at a depth of 80 feet is 50.7 pounds per square inch. D) The depth at which the pressure is 3 atm is 65.333 feet.

Given information:

At sea level, the weight of the atmosphere exerts a pressure of 14.7 pounds per square inch, commonly referred to as 1 atmosphere of pressure. as an object descends in water pressure P and depth d are Linearly relaind.

In h nit water, the preseute at a depth of 33 it is 2 - atms, ot 29.4 pounds per square inch.

(A) Linear model that relates pressure P (in pounds per square inch) to depth d (in feet):Pressure exerted by a fluid is given by the formula P = ρgh, where P is pressure, ρ is the density of the fluid, g is the acceleration due to gravity, and h is the height of the fluid column above the point at which pressure is being calculated.

As per the given information, At a depth of 33 feet, pressure is 29.4 pounds per square inch.

When the depth is 0 feet, pressure is 14.7 pounds per square inch.

The difference between the depths = 33 - 0 = 33

The difference between the pressures = 29.4 - 14.7 = 14.7

Let us calculate the slope of the model; Slope = (y2 - y1)/(x2 - x1)

Slope = (29.4 - 14.7)/(33 - 0)Slope = 14.7/33

Slope = 0.45

The equation of the linear model that relates pressure P (in pounds per square inch) to depth d (in feet) is:

P = 0.45d + 14.7

(B) Integral of the slope of the model:

Integral of the slope of the model gives the pressure exerted by a fluid on a surface at a certain depth from the surface.

Integral of the slope of the model = P = 0.45d + 14.7

C) Pressure at a depth of 80 feet:

We know, the equation of the linear model is: P = 0.45d + 14.7

By substituting the value of d in the above equation, we get: P = 0.45(80) + 14.7P = 36 + 14.7P = 50.7

Therefore, the pressure at a depth of 80 feet is 50.7 pounds per square inch.

D) Depth at which the pressure is 3 atms:

The pressure at 3 atmospheres of pressure is: P = 3 × 14.7P = 44.1

Let d be the depth at which the pressure is 3 atm. We can use the equation of the linear model and substitute 44.1 for P.P = 0.45d + 14.744.1 = 0.45d + 14.7Now we can solve for d:44.1 - 14.7 = 0.45d29.4 = 0.45dd = 65.333 feet

Therefore, the depth at which the pressure is 3 atm is 65.333 feet.

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