Question

Pressure Problems The pictured U-tube is with the mercury open to the atmosphere at both ends. Assume that the mystery fluid does not mix h2 L... l Mercury (Hg) Mystery Liquid hi ts (a) Let po represent atmospheric pressure, pre represent the density of mercury, and pi represent the density of the mystery fluid. Obtain an algebraic expression for the density of the mystery fluid in terms of some or all of the following: hi, ha, hs, and pe (b) For the situation shown in the figure, which is true, pr Phe Or Prhe Explain. If hi- 2.55 cm and h2 25.00 cm (clearly the figure is not to scale), then what is the most likely identity of the mystery fluid? On what scientific evidence did you base your choice? (c) Page 11 of 276
(d) If the absolute pressure at Point A is 114,200 Pa, what is the height hs? Use the nume from Part (c). Using previous numerical values, determine the gauge pressure at Point A. Take atmospheric pressure to be po 101,300 Pa. (e)
0 0
Add a comment Improve this question Transcribed image text
Know the answer?
Add Answer to:
Pressure Problems The pictured U-tube is with the mercury open to the atmosphere at both ends....
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • Hydrostatic Pressure Worksheet 1. Two liquids, 1 and 2, are in equilibrium in a U-tube that...

    Hydrostatic Pressure Worksheet 1. Two liquids, 1 and 2, are in equilibrium in a U-tube that is open to air (Po 1 atm- 1.01325 × 105 Pa) at both ends. The liquids do not mix. The density of liquid 2 is 1000 g and the height of it is h2 8 m. The density of the liquid I is p 800 m3 Pl 000 A P2 hi a) What is the pressure at point B (the interface of liquid I...

  • A U-tube of uniform cross-sectional area and open to the atmosphere is partially filled with mercury....

    A U-tube of uniform cross-sectional area and open to the atmosphere is partially filled with mercury. Water is then poured into both arms. If the equilibrium configuration of the tube is shown in the figure below, with h2 = 1.409 cm, determine the value of h1. The density of mercury is 13,600 kg/m^3.

  • A U-tube open at both ends is partially filled with water (see figure) (Pair 1.29 kg/m...

    A U-tube open at both ends is partially filled with water (see figure) (Pair 1.29 kg/m ) Oil having density 725 kg/m2 is then poured into the right arm and forms a column L = 5.58 cm high. Shield Po Water Oil a) Determine the difference h in heights of the two liquid surfaces. Number Units b)The right arm is then shielded from any air motion while air is blown across the top of the left arm until the surface...

  • U-tube manometer are commonly used to measure pressure Po of the air space inside a water...

    U-tube manometer are commonly used to measure pressure Po of the air space inside a water tank, see figure below. Given readings (measure from ground level) 20 = 200 cm, 21 = 90 cm, z2 = 120 cm, zz = 100 cm 24 = 110 cm. Determine the gauge pressure Po - Pa. (Neglect air density, water density is p = 1000 kg/m) Air po 12o Wate Water Air pa water Ground SG=13.6

  • water Pressure vs Depth - U Shaped Tube Two Fluids 2 As shown in the figures,...

    water Pressure vs Depth - U Shaped Tube Two Fluids 2 As shown in the figures, a U-shaped tube open to the air at both sides contain some unknown liquid. Then water (density = 1000 kg/m 3) fills the Right arm of the U-tube (there is no intermixing between the two liquids). When equilibrium is reached, h1 = 0.18 m, and height of water h2 - 0.56 m. The atmospheric pressure is 1.013x105 Pa. What is the density of the...

  • Measurement of Pressure. An open U-tube manometer similar to Fig. 2.2-4a is being used to measure...

    Measurement of Pressure. An open U-tube manometer similar to Fig. 2.2-4a is being used to measure the absolute pressure p, in a vessel containing air The pressure pb is atmospheric pressure, which is 754 mm Hg. The liquid in the manometer is water having a density of 1000 kg/m. Assume that the densityp is 1.30 kg/m and that the distance Z is very small. The reading R is 0.415 m. Calculate p, in psia and kPa. pb fluid B PB...

  • Use these rules to work out the following problem: A U-shaped tube is connected to a...

    Use these rules to work out the following problem: A U-shaped tube is connected to a box at one end and open to the air at the other end. The box is full of gas at pressure pgas, and the tube is filled with mercury of density 1.36×104 kg/m3 . When the liquid in the tube reaches static equilibrium, the mercury column is h1 = 13.0 cm high in the left arm and h2 = 5.50 cm high in the...

  • Draw a picture. Show open surfaces, pistons, boundaries, and other features that affect the pressure. Include...

    Draw a picture. Show open surfaces, pistons, boundaries, and other features that affect the pressure. Include height and area measurements and fluid densities. Identify the points at which you need to find the pressure. These objects make up the system; the environment is everything else. Determine the pressure at the various surfaces. For a surface open to the air, p0=patmos, usually 1 atm. For a surface covered by a gas, p0=pgas. For a closed surface, p=F/A, where F is the...

  • In problems about liquids in hydrostatic equilibrium

    ± Tactics Box 14.1 Hydrostatics Learning Goal:To practice Tactics Box 14.1 Hydrostatics.In problems about liquids in hydrostatic equilibrium, you often need to find the pressure at some point in the liquid. This Tactics Box outlines a set of rules for thinking about such hydrostatic problems.TACTICS EOX 14+ Hydrostatics1. Draw a picture. Show open surfaces, pistons, boundaries, and other features that affect the pressure. Include height and area measurements and fluid densities. identify the points at which you need to find the...

  • (6 pts.) 1. The air pressure in the inner tube of a tire on a typical...

    (6 pts.) 1. The air pressure in the inner tube of a tire on a typical racing bike is held at a pressure of 115 psi (pounds! per square inch). Convert this pressure to atm and mm Hg. (3 pts. each) The atmospheric pressure is 0.978 atm. Determine the pressure of the enclosed gas in each of the cases depicted below. Gas Gas (6 pts.) 3. A 5.90 L bottle contains 1070 g of oxygen at 25.0°C. Calculate the pressure...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT