0
What else can I help you with?
What is the solution to an open tube manometer problem?
To solve an open tube manometer problem, you need to calculate the pressure difference between the two points being measured. This can be done by using the equation P1 - P2 gh, where P1 and P2 are the pressures at each point, is the density of the fluid in the manometer, g is the acceleration due to gravity, and h is the height difference between the two fluid levels in the manometer. By rearranging the equation and plugging in the known values, you can find the solution to the problem.
When using a manometer to check Boyle's law why is the pressure changed slowly?
oBecause chemistry just does that , I mean you cant exactly change what Chemistry says! You know what just go find your Chemistry book and find out and Get off of the Internet!Dimwits -__--Trill>.
What weather insturemeant can measur air pressure?
it is called a barometer the constuction u can find many places on net a manometer is also used to measure pressure of gases
How do you use manometer to measure level?
A well-type manometer is to be used to measure differential pressure in a water flow system. The manometer uses a special bromide liquid of specific gravity of 2.95.The well and tube are of 75 mm and 5 mm diameter respectively. The scale placed along the tube has no correction factor for the area ratio of the manometer. Calculate the value of this factor which must be multiplied by the manometer reading in mm to find the pressure differential in kg/cm2.
How do you find air pressure?
using a pressure gauge.
What is the pressure of the gas in this mercury manometer if h equals 71 mm and atmospheric pressure is 769 mmHg?
To find the pressure of the gas in the mercury manometer, you can use the formula: ( P_{\text{gas}} = P_{\text{atm}} + h ). In this case, ( P_{\text{atm}} ) is 769 mmHg and ( h ) is 71 mm. Thus, ( P_{\text{gas}} = 769 , \text{mmHg} + 71 , \text{mmHg} = 840 , \text{mmHg} ). Therefore, the pressure of the gas is 840 mmHg.
What do you need to use to measure the pascal?
it depends on what your dealing with, room pressure is found with a barometer, to measure pressure in a flowing fluid, you can use a manometer. there are many variou ways to find pressure, but you must be specific on the circumstances
A closed end manometer has a U tube with a sample of hydrogen gas in the bulb The difference in the height of the columns of mercury is 18.0 cm What is the pressure of the hydrogen gas in torr?
To find the pressure of the hydrogen gas in torr, you can use the difference in height of the mercury columns and the density of mercury. First, calculate the pressure difference due to the 18.0 cm height difference in the mercury columns. Then, convert this pressure into torr using the conversion factor 1 atm = 760 torr.
What is the pressure of the sample of gas trapped in the open-tube mercury manometer shown below if atmospheric pressure is 736 mmHg and h equals 9.2 cm?
The pressure of the gas is equal to the atmospheric pressure plus the difference in the heights of the mercury levels. To convert 736 mmHg to cm, divide by 1.333. Then calculate the difference in heights: 9.2 cm. Add the two values together to find the pressure of the gas.
How do you find the pressure of a gas?
find the mole fraction on each: Mole fraction gas (X) = moles of gas (X) / total moles of all gases Then use this formula: Pi = X Pt Where Pi = partial pressure of gas i X = mole fraction of gas i Pt = total pressure of all gases How do you calculate the total pressure?Is it just the total number of moles?Or do you need to convert it to Pascals?
How to find density with pressure and temperature?
To find density using pressure and temperature, you can use the ideal gas law equation: density (pressure)/(gas constant x temperature). This formula relates the pressure, temperature, and density of a gas. By plugging in the values for pressure, temperature, and the gas constant, you can calculate the density of the gas.
How do you find area if force and pressure given?
You can find Dynamic pressure by using bernoulli's equation. P = (density * velocity^2)/2
