The open tank shown, which has a liquid with a specific gravity of S=12.4 as shown in the give figure, is accelerated upward at one g. what is the pressure at point 1(kpa)? 2 150 cm 1 190 mm
Q: The open tank shown, which has a liquid with a specific gravity of S=6.6 as shown in the give…
A:
Q: A triangular plate shown in the figure is submerged in oil, specific gravity = %3D 0.8, 3.98 m below…
A:
Q: For the system in the Figure below if atmospheric pressure is 100 kPa. Calculate the pressure at the…
A:
Q: Patm Air P= 80 kPa, 40 cm density=? 22 cm Hg
A: As per given question P1 =80kpa We have to determine density of other fluid.
Q: Q4. A 2 mm diameter clean glass tube is inserted in water at 20 °C. Determine the height that the…
A:
Q: Q3)A tank 6 m long 3 m wide and 2 deep contains oil to depth of 1.75 m .If it accelerated…
A: Given-Data:- The length of the tank= l = 6m Width of the tank = 3m Depth of the tank=2m Horizontal…
Q: The inclined tube manometer shown in the next figure is used to measure small pressure perturbations…
A: Area of larger tube, A Area of the inclined capillary tube, a Diameter of larger tube, D Diameter of…
Q: An open rectangular tank (8m) long. (3m) wide and (2m) ep is filled water to depth (1m), the tank is…
A: (1) Calculate the angle of surface of water. tanθ=ag
Q: 2. A vertical, triangular gate with water on one side is shown in Figure. Determine the total…
A: Given:Width of the traingular gate, b=2 mheight of the triangular gate, h=3 m
Q: Q2/ In Fig. 2 both the tank and the tube are open to the atmosphere. If L=2.13 m, what is the angle…
A: Given data as per the question Length =2.13 m The specific gravity of oil =0.8
Q: The open tank shown, which has a liquid with a specific gravity of S=5.4 as shown in the give…
A: Given: Specfic gravity of the liquid (s)=5.4Upward acceleration (a)=g or 9.81m/s2height of the water…
Q: Gate AB in Fig. of pressure. is 1.0 m long and 0.9 m wide. Calculate force F on the gate and the…
A:
Q: Q1) The inverted U-tube manometer of Fig. contains oil (SG 0.9) and water as shown. Find The…
A:
Q: Q:- An 8-cm-diameter piston compresses manometer oil into an inclined tube, as shown in Fig. When a…
A: Given data Diameter of piston (dp) = 8 cm Oil rises distance = 10 cm
Q: An open cylindrical tank is 1.3 m in diameter and 2.1 m high, is 3/5 full of water If the tank is…
A: Given Diameter of the cylinder = 1.3 m Height of the cylinder = 2.1 m Water filled = 3/5 of the…
Q: A triangular plate shown in the figure is submerged in oil, specific gravity = 0.8, 4.1 m below the…
A: Given that , Specific gravity of oils =0.8Width of plate w=3.43mHeight of plate h=7.99mHeight of…
Q: The tank shown in Fig. P. 1.20.7 is closed at top and contains air at a pressure of pa. Calculate…
A: Given: Distance between X-X' and the water level in tube, h1=10 cm=0.1 m Height of oil tank, h2=150…
Q: Two (2) water reservoirs are connected to each other, as shown below. If the pressure difference…
A:
Q: Q1: An oil pipeline and a 1.3m³ rigid air tank are connected to each other by a manometer, as shown…
A: Mass = 15 kg Temperature = 80 C Specific gravity of oil = 2.68 Specific gravity of mercury = 13.6…
Q: The open tank shown, which has a liquid with a specific gravity of S-2.0 as shown in the give…
A:
Q: The open tank shown, which has a liquid with a specific gravity of S=5.7 as shown in the give…
A: Given Specific gravity = 5.7 Therefore Density = 5700 kg / m3
Q: Pr. 2: 2.159 The three-legged manometer in Fig. P2.159 is filled with water to a depth of 20 cm. All…
A:
Q: 6. Determine the pressure at Point B if the Pressure at Point A is 40 kPa (Fig. 6). SGmercury=13.6,…
A:
Q: A fluid filled container is shown below. Oil fills the left side of the “U” to a depth of 33.0 cm…
A: given data: oil filles to depth (h)=33cm=0.33m density of oilρ=753kg/m3 radius of left side…
Q: Q2/ The dam in Fig. below is a quarter circle 50 m wide into the paper. Determine the horizontal and…
A: Given data specific weight of water (γwater) = 9790 N/m3 radius of quarter circle (r) = 20 m Width…
Q: A given open Manometer system is shown in the figure, with two fluids: Oil (G=0.8) and mercury. The…
A: The given pressure at C is 2263 kg/m2. PC=2263×9.81 = 22200.03 Pa
Q: A gasoline pipe is connected to a pressure gage through a double-U manometer, as sho in the figure…
A: Given:Reading of pressure gauge, Pg=370 kPaSG of oil=0.79SG of mercury=13.6SG of gasoline=0.70water…
Q: For the inverted manometer shown in the figure, all the fluid are at 20 0C. If PB - PA = 687 kPa,…
A: Answer: The height of water H is 5.0983 m (509.83 cm).
Q: A circular surface (gate) submerged in water at an inclined angle of 45° as shown in the figure. If…
A: A submerged body underwater experiences a hydrostatic force due to pressure loading. This force is…
Q: The hydrometer shown in Figure below is a device for measuring the specific gravity of liquids. The…
A: Given: The volume of the bulb, V’ = 20 mL The length of the stem, h = 15 cm The diameter of the…
Q: a vertical cylindrical tank 4.82 m. in diameter and 6.87 m. high is full of water. if the tank is to…
A:
Q: If the absolute pressure at the interface between water andmercury in Fig. is 93 kPa, what, in…
A: Given data: The absolute pressure at interface, Pinterface = 93 kPa. (a) Calculate the pressure at…
Q: 2. In Fig., the cover gate AB closes a square opening 80 cm in size. The gate is held closed by a…
A: Given, m = 200 kg L = 0.8 m
Q: A balloon with neglible mass is inflated with helium . The balloon is connected to a 20N cube via a…
A: Weight of the cube, Wcube= 20 N Air density, ρair= 1.16 kg/m3 Helium density, ρhelium= 0.16 kg/m3…
Q: 2. If the pressure in the air space above an oil (s = 0.80) surface in a closed tank is 120 kPa…
A:
Q: For the position indicated in the figure, the pressure gauge indicates zero pressure and the piston…
A:
Q: Open tank (4.5 m long, 2.5 m height and 3 m wide) contains liquid (S-0.75) to height 1. m. If this…
A:
Q: In Fig.= both the tank and the tube are open to theatmosphere. If L = 2.13 m, what is the angle of…
A:
Q: u-tube manometer filled with water,density 62.2 lbm/ft3, shows a height difference of 10in. the…
A: Given Density = 62.2 lbm/ft3 Height difference, h = 10 in Find Length of the…
Q: A tank of water 5m deep receives a constant upward acceleration az= 4 m2/sec, determine the gauge…
A: Given: Depth h=5 m, The constant upward acceleration is az= 4 m/s2.
Q: 3. A container filled with water accelerates at 20 ft/s² up a plane inclined by a = The pressure at…
A: Given data: The acceleration of the container is a = 20 ft/s2. The inclination of the plane is α =…
Q: Determine the gauge pressure at P in the figure below which shows a compound manometer. Take all…
A: GIVEN DATA- A MANOMETER GIVEN WE HAVE TO FIND GAUGE PRESSURE AT P
Q: Open tank (4.5 m long. 2.5 m height and 3 m wide) contains liquid (S-0.75) to height 1. m. If this…
A:
Q: The system in Fig. is at 20 ° C. If atmosphericpressure is 101.33 kPa and the pressure at the…
A: Given: The atmospheric pressure is Patm=101.33 kPa. The pressure at the bottom of the tank is…
Q: The open tank shown, which has a liquid with a specific gravity of S=12.7 as shown in the give…
A: As the fluid is accelerated upwards it will lead to pseudo acceleration(a) acting on the fluid in…
Q: The open tank shown, which has a liquid with a specific gravity of S-6.2 as shown in the give…
A: Given Specific gravity = 6.2 Therefore Density = 6200 kg / m3
Q: An open manometer, shown in the figure, is installed to measure the pressure in a pipe carrying an…
A:
Q: Given: Figure as shown below: density of water = 62.3 lb/ft3 specific gravity of mercury = 13.60 s.s…
A: GIVEN DATA A MERCURY MANOMETER IS GIVEN WITH A WATER CONTAINER WE HAVE TO FIND PRESSURE AT DIFFERENT…
Q: A tank open to the atmosphere contains oil of sp. gr. = 0.80, gasoline sp.gr. =0.90 and seawater…
A:
Q: If a scuba diver descends too quickly into the sea, the internal pressure on each eardrum remains at…
A:
Step by step
Solved in 2 steps
- For the inverted manometer shown in the figure, all the fluid are at 20 0C. If PB - PA = 687 kPa, What must the height H be in cm. Take water density = 1000kg/m3 Mercury density = 13600kg/m3The pressure at a point “m” in the figure shown was increased from 70 kPa to 105 kPa. This causedthe top level of mercury to move 20 cm in the sloping tube. What is the inclination, θ?If the absolute pressure at the interface between water andmercury in Fig. is 93 kPa, what, in lbf/ft 2 , is ( a ) thepressure at the surface and ( b ) the pressure at the bottom ofthe container?
- In Fig. , vertical, unsymmetrical trapezoidal panelABCD is submerged in fresh water with side AB 12 ft belowthe surface. Since trapezoid formulas are complicated,( a ) estimate, reasonably, the water force on the panel, in lbf,neglecting atmospheric pressure. For extra credit, ( b ) lookup the formula and compute the exact force on the panel.A closed tank contains 1.5 m of SAE 30 oil, 1m of water, 20 cm of mercury, and an air pocket in its upper part, all of them at 20 ° C. The absolute pressure at the bottom of the tank is 60 kPa. What is the pressure in the air bag?The tank in Fig is 120 cm long into the paper. Determinethe horizontal and vertical hydrostatic forces on thequarter-circle panel AB . The fl uid is water at 20 ° C. Neglectatmospheric pressure.
- Derive a formula for capillary rise (h) between two concentric glass tubes of radiuses RI and R2. determine its value for water if (G. = 0.072 N/m, RI=30mm, & R2=36mm) (Take smooth and very clean glass tubes).The tank of water in Fig. is 12 cm wide into the paper.If the tank is accelerated to the right in rigid-body motion at6.0 m/s 2 , compute ( a ) the water depth on side AB and ( b ) thewater-pressure force on panel AB . Assume no spilling.The tank in Fig. has a 4-cm-diameter plug at the bottomon the right. All fl uids are at 20 ° C. The plug will pop out if thehydrostatic force on it is 25 N. For this condition, what willbe the reading h on the mercury manometer on the left side?
- A cylindrical disk ofwood weighing 45.0 N and having adiameter of 30.0 cm floats on a cylinderof oil of density 0.850 g /cm3(Fig.). The cylinder of oilis 75.0 cm deep and has a diameterthe same as that of the wood.(a) What is the gauge pressure at thetop of the oil column? (b) Supposenow that someone puts a weightof 83.0 N on top of the wood, butno oil seeps around the edge of thewood. What is the change in pressureat (i) the bottom of the oil and(ii) halfway down in the oil?Consider the slanted plate AB of length L in Fig. .( a ) Is the hydrostatic force F on the plate equal to theweight of the missing water above the plate? If not, correctthis hypothesis. Neglect the atmosphere. ( b ) Can a “missingwater” theory be generalized to curved surfaces of this type?The ABC cover in the figure is R = 270 cm in diameter and in the form of a semi-circle and its vertical width to the screen is 140 cm. Find the horizontal component in (N) of the hydrostatic pressure force acting on the lid by the water of density 1g / cm³.