Explanation Given: Diameter of the pipe, d = 5 .6 cm = 0 .056 m Force provided by plunger, F = 440 N The reservoir is initially at rest, v 1 = 0 The other end of the pipe is open to air, P 2 = P o = 1.01 × 10 5 Pa Formula Used: According to Bernoulli's principle, with an increase in the speed of a fluid, pressure decreases or fluid's potential energy decreases. P + 1 2 ρ v 2 + ρ g h = constant Where, P is the pressure of the fluid, 1 2 ρ v 2 is the kinetic energy per unit volume and ρ g h is the potential energy per unit volume. P r e s s u r e = F o r c e A r e a = F A = F π ( d / 2 ) 2 Calculation: P = F π ( d / 2 ) 2 = 440 π ( 0

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SARET CRKS AUTOWAY 12. A stone is dropped from the top of a cliff. It is seen to hit the ground below after 3.55 s. How high is the cliff? 13. A ball is dropped from rest at the top of a building that is 320 m tall. Assuming no air resistance, what is the speed of the ball just before it strikes the ground? 14. Estimate (a) how long it took King Kong to fall straight down from the top of the Empire State Building (280m high), and (b) his velocity just before "landing". Useful equations For Constant Velocity: V => D X = V₁t + Xo For Constant Acceleration: Vr = V + at X = Xo+Vot + v=V+2a(X-Xo) \prom = V +V V velocity t = time D Distance X = Final Position Xo Initial Position V = Final Velocity Vo Initial Velocity a = acceleration For free fall Yf = Final Position Yo Initial Position g = 9.80 m $2 For free fall: V = V + gt Y=Yo+Vo t + +gt V,² = V₁²+2g (Y-Yo) V+Vo Vprom= 2 6

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Chapter 12 Solutions

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