The pressure 45.0 m under water is 543 kpa
Webb1 apr. 2024 · Expert's answer To calculate gauge pressure at height h=75 , use formula P=hdg+P∘ where P∘ is atmospheric pressure, h (=75 m) is the height below the open water surface, d (=1 g/cm3 ) is the density of water and g (=9.8 m/s2 )is the acceleration due to gravity. Then, P∘=837 - 9.8*75*1=102 kPa ≈ 1atm ≈ 760 mmHg; WebbVIDEO ANSWER:in discussion rehab. Well, professor of pure water, He goes to 71 90mm at G. A. Number of malls of water. He was 2 0.420 kg divided by 18. He was two so 4- zero …
The pressure 45.0 m under water is 543 kpa
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Webbweight of liquid ammonia 5.15 pounds per gallon (water weight 8.33 pounds per gallon) boiling point liquid ammonia at atmospheric pressure-28 o F (-33.3 o C) liquid ammonia … Webbbar to psi. Enter a car tyre pressure in bar below to convert it to the equivalent car tyre pressure in psi. Choose a value between 0 and 3.5 bar from the car tyre pressure …
Webb29 apr. 2024 · P = ( 543 kPA ) ( 1.0 atm / 101.325 Pa ) = 5.36 atm <—————-P = ( 543 kPa ) ( 760 mm Hg / 101.325 kPa ) = 4073 mm Hg <————– I use the equivalents to 1.000 … Webbf. end manometer, with the atmospheric pressure 97.2 kPa. ... Under certain circumstances, helium effuses at 45.0 m/s. At what rate would nitrogen effuse under the …
Webb25 feb. 2024 · Answer: The pressure under the water is 7.29 atm Explanation: We are given: Pressure under the water = 739 kPa To convert into atm, we use the conversion factor: 1 atm = 101.325 kPa Converting the pressure from kilo pascals to atmospheres, we get: Hence, the pressure under the water is 7.29 atm Advertisement kenmyna Webbf. end manometer, with the atmospheric pressure 97.2 kPa. ... Under certain circumstances, helium effuses at 45.0 m/s. At what rate would nitrogen effuse under the same conditions? E 17.0 M/S 4. How much faster will hydrogen effuse when compared to o ygen? 32, D 5. A compound contains only C, H, and N. It is 58.51% C and 7.37% H by mass.
Webb27 mars 2024 · To find any of these values, simply enter the other ones into the ideal gas law calculator. For example, if you want to calculate the volume of 40 moles of a gas under a pressure of 1013 hPa and at a temperature of 250 K, the result will be equal to: V = nRT/p = 40 × 8.31446261815324 × 250 / 101300 = 0.82 m³.
WebbPressure = pressure due to atmosphere + pressure due to liquid column p = P a + hpg h = height of water p = density of water g = gravitational acceleration p a = P - hpg =543000 - (45 * 1000 * 10) = 93000pa =93kPa Step-by-step explanation references, Variation of pressure with depth in a fluid Physics. (n.d.). ionized water systems for washing carsWebb5. A volume of 546 mL of hydrogen is collected over water at 30°C when the atmospheric pressure is 100.45 kPa. How many moles of hydrogen are present? To get pressure due to O 2, subtract pressure from water vapor from total pressure. water vapor = 31.8 mmHg but convert this to kPa = 31.8 mmg x 101.325 kPa/760 mmHg = 4.24 kPa. ionized water machines comparisonsWebbThe pressure 45.0 meters under water is 543 kPa. What is this pressure in atm? Verified answer. physics. A note from a flute (a pipe with a closed end) has a first harmonic of 392.0 Hz. How long is the flute if the sound’s speed is 331 m/s? Verified answer. physical science. A(n) _ bends light rays inward toward the focal point. Verified answer. on the bathroom floorWebb21 juni 2024 · Hello v; You have for the pressure at the given depth, x: P = PE + (densW) (g) (x) P = ( 543 kPa ) ( 1.0 atm / 101.325 Pa ) = 5.36 atm ---------------- P = ( 543 kPa ) ( 760 mmHg / 101.325 kPa ) = 4073 mm Hg -------------- I am using the standard pressure equivalents of 1000 atmospheres at sea level, PE0. on the basis that meaningWebb18 jan. 2024 · Moles = (Pressure × Volume) / (0.0821 × Temperature) If you want to work it out yourself, without the molar mass of gas calculator, be careful with the units! This particular equation uses a constant of 0.0821, which is intended for the following units: Pressure = Atmosphere (atm) ionized window cleaninghttp://convert-to.com/195/pressure-units.html on the bathroom wallWebbAnswer (1 of 4): Q1) Use the ideal gas law: PV = nRT P = ? V= 85.0 L n = 5894 mol T = 45.0°C = 318.15 K and R = 8.13 kPa•L/mol•K Rearranging the gas law equation to solve … on the bathroom wall movie