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Problem #1 A simple barometer can be made in much the same way as a manometer,...
A barometer can measure atmospheric pressure using the variation of pressure with depth of a fluid....
A barometer can measure atmospheric pressure using the variation of pressure with depth of a fluid. Vacuum (P 0) A glass tube is filled with mercury (p 13,600 kg/m3) and placed upside-down in a bowl that also contains mercury. O Determine the height h. Enter the value in mm but do not include the unit in your response. Pat O 1 atmosphere 1.01x105 Pa
2. The basic barometer can be used to measure the height of a building. If the...
2. The basic barometer can be used to measure the height of a building. If the barometric readings at the top and at the bottom of a building are 675 and 695 mmHg, respec- tively, determine the height of the building. Take the densi- ties of air and mercury to be 1.18 kg/m2 and 13,600 kg/mº, respectively. 3. Freshwater and seawater flowing in parallel horizon- tal pipelines are connected to each other by a double U-tube manometer, as shown in...
Using Bernoulli's equation, the calculated pressure P0 is: a.) 321213 dyne/cm3 b.) 135263 dyne/cm3 c.) 452647...
Using Bernoulli's equation, the calculated pressure P0 is:
a.) 321213 dyne/cm3
b.) 135263 dyne/cm3
c.) 452647 dyne/cm3
d.) 128513 dyne/cm3
P.. = Pressure Atmospheric time= 7s h1 = 13cm hcl = 6.3 cm Diameter = 11.5cm Reservoir B height = 21 cm h.2 = 13.2 cm h.cpl = y cm h; = 13 lcm P1 = Pressure column h.cp2 = xcm Velocity(v.) Pipe Diameter = 3.6cm P2 = Pressure column Area.p1 Velocity (V2) Тар А hpl = 73.2 cm Pipe...
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 pipe system carries water from a reservoir and discharges it as a free jet, as...
A pipe system carries water from a reservoir and discharges it as a free jet, as shown. The system consists of piping made from 200-mm diameter commercial steel pipe with two 90 deg elbows with Kı= 0.4m and an inlet minor loss Kl = 0.05 1) (4 pts) Assuming ideal fluid model within the reservoir, show that pressure at point A is Vå Pa = Pamb + y(30 m) - p. 2 and draw on the diagram the streamline you...
Problem 1 (20 points): Consider the ideal Bra below. The compressor, turbine, and process fluid is...
Problem 1 (20 points): Consider the ideal Bra below. The compressor, turbine, and process fluid is air that can be modeled as an conditions for the operation of the cycle are known: mts: Consider the ideal Brayton cycle model for an aircraft engine as shown in the diagram sur, turbine, and nozzle are all assumed to operate with an isentropic efficiency of 100%. The that can be modeled as an ideal gas with constant specific heats. The following steady-state 7...
Ignore question [1], just need the problem description from it. [1] Water flowing in a pipe...
Ignore question [1], just need
the problem description from it.
[1] Water flowing in a pipe is determined to be moving at the velocities given in the diagram below. The higher level is 3 meters above the lower one and the pressure in the lower portion is measured to be 200 kPa. Determine the pressure inside the upper pipe Treat the water as an ideal fluid obeying Bernoulli's equation. Consider the path connecting poin in the lower pipe with point...
you can skip task 1 (3) because its a code in matlab. Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to...
you can skip task 1 (3) because its a code in
matlab.
Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to another reservoir at a higher elevation 112 m through 150-m-long pipe as shown in Figure (1). The pipe is made of steel, and the diameter ofthe pipe is equal to 30 cm water is to be pumped...
Thermodynamics one pls clear hand writing thanks (i) Define pure substance and comprehensively describe the phase...
Thermodynamics one
pls clear hand writing
thanks
(i) Define pure substance and comprehensively describe the phase changes of a pure substance considering water as an example. Use diagrams to illustrate your understanding of this point.. (1 mark) (ii) The variations of properties during phase-change processes are best studied and understood with the help of property diagrams including the T-v, P-v, and P-T diagrams for pure substances. Taking water as an example, comprehensively sketch and discuss how these tables (1 mark)...
some context Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well...
some context
Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well as Fourer's law of condustion to prove: 2 R373 D11 = 3113/202pm Dal We were unable to transcribe this imageof a nes. the xed the led negligible The following assumptions about the structure of the cases are made in order to investigate the statistical rules of the random motion of the molecules: The size of the gas molecules is negligible compared with the distance...
A barometer can measure atmospheric pressure using the variation of pressure with depth of a fluid. Vacuum (P 0) A glass tube is filled with mercury (p 13,600 kg/m3) and placed upside-down in a bowl that also contains mercury. O Determine the height h. Enter the value in mm but do not include the unit in your response. Pat O 1 atmosphere 1.01x105 Pa
2. The basic barometer can be used to measure the height of a building. If the barometric readings at the top and at the bottom of a building are 675 and 695 mmHg, respec- tively, determine the height of the building. Take the densi- ties of air and mercury to be 1.18 kg/m2 and 13,600 kg/mº, respectively. 3. Freshwater and seawater flowing in parallel horizon- tal pipelines are connected to each other by a double U-tube manometer, as shown in...
Using Bernoulli's equation, the calculated pressure P0 is:
a.) 321213 dyne/cm3
b.) 135263 dyne/cm3
c.) 452647 dyne/cm3
d.) 128513 dyne/cm3
P.. = Pressure Atmospheric time= 7s h1 = 13cm hcl = 6.3 cm Diameter = 11.5cm Reservoir B height = 21 cm h.2 = 13.2 cm h.cpl = y cm h; = 13 lcm P1 = Pressure column h.cp2 = xcm Velocity(v.) Pipe Diameter = 3.6cm P2 = Pressure column Area.p1 Velocity (V2) Тар А hpl = 73.2 cm Pipe...
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 pipe system carries water from a reservoir and discharges it as a free jet, as shown. The system consists of piping made from 200-mm diameter commercial steel pipe with two 90 deg elbows with Kı= 0.4m and an inlet minor loss Kl = 0.05 1) (4 pts) Assuming ideal fluid model within the reservoir, show that pressure at point A is Vå Pa = Pamb + y(30 m) - p. 2 and draw on the diagram the streamline you...
Problem 1 (20 points): Consider the ideal Bra below. The compressor, turbine, and process fluid is air that can be modeled as an conditions for the operation of the cycle are known: mts: Consider the ideal Brayton cycle model for an aircraft engine as shown in the diagram sur, turbine, and nozzle are all assumed to operate with an isentropic efficiency of 100%. The that can be modeled as an ideal gas with constant specific heats. The following steady-state 7...
Ignore question [1], just need
the problem description from it.
[1] Water flowing in a pipe is determined to be moving at the velocities given in the diagram below. The higher level is 3 meters above the lower one and the pressure in the lower portion is measured to be 200 kPa. Determine the pressure inside the upper pipe Treat the water as an ideal fluid obeying Bernoulli's equation. Consider the path connecting poin in the lower pipe with point...
you can skip task 1 (3) because its a code in
matlab.
Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to another reservoir at a higher elevation 112 m through 150-m-long pipe as shown in Figure (1). The pipe is made of steel, and the diameter ofthe pipe is equal to 30 cm water is to be pumped...
Thermodynamics one
pls clear hand writing
thanks
(i) Define pure substance and comprehensively describe the phase changes of a pure substance considering water as an example. Use diagrams to illustrate your understanding of this point.. (1 mark) (ii) The variations of properties during phase-change processes are best studied and understood with the help of property diagrams including the T-v, P-v, and P-T diagrams for pure substances. Taking water as an example, comprehensively sketch and discuss how these tables (1 mark)...
some context
Problem 3: Use simple kinetic theory of gases discussed in section 1.3.2 as well as Fourer's law of condustion to prove: 2 R373 D11 = 3113/202pm Dal We were unable to transcribe this imageof a nes. the xed the led negligible The following assumptions about the structure of the cases are made in order to investigate the statistical rules of the random motion of the molecules: The size of the gas molecules is negligible compared with the distance...
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