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Carbon tetrachloride (manometer liquid, M, in the figure below, SG = 1.6) is poured into a...
1.16 An inverted U-tube manometer containing oil (SG = 0.8) is connected to two vessels as...
1.16 An inverted U-tube manometer containing oil (SG = 0.8) is connected to two vessels as shown in Fig. 1.16. The vessel on the left contains liquid carbon tetrachloride (density 1600 kg/m3), is closed and pressurised to 50 kPa (gauge). The vessel on the right contains water and is open to the atmosphere. Use the given data to determine the depth H of the liquid stored in the left vessel. Ans: 0.89 m Carbon tetrachloride 50 kPa 02 m Oil...
* Incorrect. The inclined differential manometer of the figure below contains carbon tetrachloride. Initially the pressure...
* Incorrect. The inclined differential manometer of the figure below contains carbon tetrachloride. Initially the pressure differential between pipes A and B, which contain a brine (SG = 1.11), is zero as illustrated in the figure. It is desired that the manometer give a differential reading of 12 in. (measured along the inclined tube) for a pressure differential of 0.1 psi. Determine the required angle of inclination, O. Brine 12 in. -------Carbon- tetrachloride O= i 27.8
A liquid is poured into a U-tube as shown in the figure below. The left arm...
A liquid is poured into a U-tube as shown in the figure below.
The left arm of the tube has cross sectional area A1 of 20.0 cm2,
and the right arm has a cross-sectional area A2 of 10.0 cm2. 0.200
kg of water is then poured into the right arm as shown. The liquid
rises in the left arm by a distance h = 2.15 cm. The density of
water is 1.00 × 103 kg/m3. (a) Determine the length of...
A U-tube open at both ends is partially filled with water. Oil (p=750kg/m^3) is then poured...
A U-tube open at both ends is partially filled with water. Oil (p=750kg/m^3) is then poured into the right arm and forms a column L=5.00cm high. (a) Determine the difference h in the heights of the two liquid surfaces. (b) The right arm is then shielded from any air motion while air is blown across the top of the left arm until the surfaces of the two liquids are at the same height. Determine the speed of the air being...
A) A simple U-tube that is open at both ends is partially filled with a liquid...
A) A simple U-tube that is open at both ends is partially filled with a liquid of density 222 kg/m3. Water is then poured into one arm of the tube, forming a column 13 cm in height, as shown in the following diagram. The density of heavy liquid is 1000 kg/m3. What is the difference, h1, in the heights of the two liquid surfaces? Answer in units of cm. b) A simple U-tube that is open at both ends is...
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...
12) As shown in fig. an open-tube manometer containing water (p.-10 kg/m') and mercury (p-1.36x 10...
12) As shown in fig. an open-tube manometer containing water (p.-10 kg/m') and mercury (p-1.36x 10 kg/m). The height of water in the left column above the interface A is h' - 30 cm, while the height of mercury in the right column above B is h - 20 cm. The right column is open to the atmosphere Patm - 1.01 10 Pa. The pressure P in the container is: a) P-1.25x10 Pa a) P=0.56*10Pa b) P-4.29x109 Pa d) P-2.46x10*...
A U-tube contains liquid of unknown density. An oil of density 770 kg/m³ is poured into...
A U-tube contains liquid of unknown density. An oil of density
770 kg/m³ is poured into one arm of the tube until the oil column
is 13.5 cm high. The oil-air interface is then 4.5 cm above the
liquid level in the other arm of the U-tube. Find the density of
the liquid.
A raft is made of 11 logs lashed together. Each is 38.0 cm in
diameter and has a length of 7.00 m. How many people (whole number)...
12. (-/2 points) DETAILS SERCP11 9.A.P.088. MY NOTES ASK YOUR TEACHER A U-tube open at both...
12. (-/2 points) DETAILS SERCP11 9.A.P.088. MY NOTES ASK YOUR TEACHER A U-tube open at both ends is partially filled with water (Figure (a)). Oil (p = 750 kg/m?) is then poured into the right arm and forms a column L = 4.43 cm high (Figure (b)). P Shield U Water Oil (a) Determine the difference h in the heights of the two liquid surfaces. (The density of water is 1.00 x 103 kg/m3.) cm (b) The right arm is...
Y = 3 m (pa-pb) = 46 KN/m^2 Q.2. Figure:2 shows a U tube differential manometer...
Y = 3 m
(pa-pb) = 46 KN/m^2
Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
1.16 An inverted U-tube manometer containing oil (SG = 0.8) is connected to two vessels as shown in Fig. 1.16. The vessel on the left contains liquid carbon tetrachloride (density 1600 kg/m3), is closed and pressurised to 50 kPa (gauge). The vessel on the right contains water and is open to the atmosphere. Use the given data to determine the depth H of the liquid stored in the left vessel. Ans: 0.89 m Carbon tetrachloride 50 kPa 02 m Oil...
* Incorrect. The inclined differential manometer of the figure below contains carbon tetrachloride. Initially the pressure differential between pipes A and B, which contain a brine (SG = 1.11), is zero as illustrated in the figure. It is desired that the manometer give a differential reading of 12 in. (measured along the inclined tube) for a pressure differential of 0.1 psi. Determine the required angle of inclination, O. Brine 12 in. -------Carbon- tetrachloride O= i 27.8
A liquid is poured into a U-tube as shown in the figure below.
The left arm of the tube has cross sectional area A1 of 20.0 cm2,
and the right arm has a cross-sectional area A2 of 10.0 cm2. 0.200
kg of water is then poured into the right arm as shown. The liquid
rises in the left arm by a distance h = 2.15 cm. The density of
water is 1.00 × 103 kg/m3. (a) Determine the length of...
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...
12) As shown in fig. an open-tube manometer containing water (p.-10 kg/m') and mercury (p-1.36x 10 kg/m). The height of water in the left column above the interface A is h' - 30 cm, while the height of mercury in the right column above B is h - 20 cm. The right column is open to the atmosphere Patm - 1.01 10 Pa. The pressure P in the container is: a) P-1.25x10 Pa a) P=0.56*10Pa b) P-4.29x109 Pa d) P-2.46x10*...
A U-tube contains liquid of unknown density. An oil of density
770 kg/m³ is poured into one arm of the tube until the oil column
is 13.5 cm high. The oil-air interface is then 4.5 cm above the
liquid level in the other arm of the U-tube. Find the density of
the liquid.
A raft is made of 11 logs lashed together. Each is 38.0 cm in
diameter and has a length of 7.00 m. How many people (whole number)...
12. (-/2 points) DETAILS SERCP11 9.A.P.088. MY NOTES ASK YOUR TEACHER A U-tube open at both ends is partially filled with water (Figure (a)). Oil (p = 750 kg/m?) is then poured into the right arm and forms a column L = 4.43 cm high (Figure (b)). P Shield U Water Oil (a) Determine the difference h in the heights of the two liquid surfaces. (The density of water is 1.00 x 103 kg/m3.) cm (b) The right arm is...
Y = 3 m
(pa-pb) = 46 KN/m^2
Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
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