Atmospheric pressure, also known as barometric pressure (after the barometer), is the pressure within the atmosphere of Earth. The standard atmosphere (symbol: atm) is a unit of pressure defined as 101,325 Pa (1,013.25 hPa; 1,013.25 mbar), which is equivalent to 760 mm Hg, 29.9212 inches Hg, or 14.696 psi. The atm unit is roughly equivalent to the mean sea-level atmospheric pressure on Earth; that is, the Earth's atmospheric pressure at sea level is approximately 1 atm.
In most circumstances, atmospheric pressure is closely approximated by the hydrostatic pressure caused by the weight of air above the measurement point. As elevation increases, there is less overlying atmospheric mass, so that atmospheric pressure decreases with increasing elevation. Pressure measures force per unit area, with SI units of pascals (1 pascal = 1 newton per square metre, 1 N/m2). On average, a column of air with a cross-sectional area of 1 square centimetre (cm2), measured from mean (average) sea level to the top of Earth's atmosphere, has a mass of about 1.03 kilogram and exerts a force or "weight" of about 10.1 newtons, resulting in a pressure of 10.1 N/cm2 or 101 kN/m2 (101 kilopascals, kPa). A column of air with a cross-sectional area of 1 in2 would have a weight of about 14.7 lbf, resulting in a pressure of 14.7 lbf/in2.
I am looking for a formula to let me obtain a pressure reading comparison for two different tests based upon the following information:
I have a given flow rate in liters / minute. (same for each test)
I know the size of the orifice that the water is flowing through. (same for each test)...
As you go deeper underground, to calculate the total pressure at the subterranean point, would you sum the atmospheric weight plus the weight of the overlying soil? How does this work exactly? Thanks.
Hey all,
I have a question concerning atmospheric pressure. I understand that there are two ways to look at pressure, at micro scale (kinetic theory) and at macro scale (seeing pressure a a state variable).
Now i'd like to understand atmospheric pressure using both perspectives.
At...
Homework Statement
What is the absolute (total) pressure at the depth of 15 m below the surface of the sea. Assume density of seawater is 1.03 g/cm3 and g=10 m/s2. Give answer in kPa. Use atmospheric pressure is 101 kPa.
Homework Equations
P = F/A
P1V1=P2V2
The Attempt at a...
Homework Statement
A stream of water flows vertically downward at a speed of v1 = 2.0 m/s from a faucet of cross sectional area A = 0.5 cm^2 to the bottom of a sink a distance h = 20 cm below.
Homework Equations
Bernoulli's
P(atm) + (rho)gh = P(atm) + 0.5(rho)v^2
The Attempt at a...
In Physics classes at college I was taught that atmospheric pressure is due to the weight of the air above a body. I understand this and all related equations and concepts.
But just the other day I was reading up on gas laws in a chemistry book. In that book it stated that atmospheric...
Homework Statement
The density of mercury is 13595 kg/m^3. An barometer on the planet X shows a pressure reading of 1500 mm-Hg. The gravitational field strength at the surface of the planet is 12.0 m/s^2. What is the atmospheric pressure at the planet's surface?
Homework Equations
P =...
ok my problem is that the question asks
The palm of Sheila's hand has an area of 0.0017m2.If the atmospheric pressure on the palm is 100,000 Pa, what force is being exerted on Sheila's palm by the atmosphere?
I know the formula is not P=F/A
I know you have to change the formula around but...
[b]1. I would like to convert 1 milligram of water to mililitres at room temperature and atmospheric pressure
I know that they are equivalent at3.93 celcius and an air pressure of 1013.25kPa
Homework Equations
1mg=1ml at 3.93 celcius and 1013 kPa
The Attempt at a Solution
unsure
Homework Statement
If you had a tube running from the top of one tank at a lower level to the top of another tank at a higher level.
And the water could only flow in one direction towards the higher tank.
And the water level in the high tank started to descend.
I think the tube would...
My question states:
Given that the ground-level pressure of the Earth’s atmosphere is 1.033 *10^5 N m^−^2, calculate the mass of the atmosphere. If the ground-level atmospheric density is 1.293 kg m^−^3, calculate the scale height.
For the first bit, I used P=nKT, assuming a temperature of...
Im glad this website is here for help, cause physics is nuts, but i enjoy it.
question is at 11km below sea level what is the pressure in atmosphere.
now I've got the equation p=(h)(g)(d)
ive got g=9.8 m/s d=1030kg/m3 (given to us) but the height is what is throwing me off, in...
This is a problem i have in my homework and i want to learn how to do these and get them right so please don't just give me an answer lol
The desity of the fluid in a tube is 850 kg/m cubic. THe pressure exerted by the atmospher is 1.013x10^5 Pa. What is the pressure P in the container...
More emphasis...
I understnad that atompsheric pressure affects boiling point and that as atmospheric pressure increases, boiling point increases...but why?
What factors determine the pressure of a planet's atmosphere?
For example:
Mars has an atmospheric pressure that's much lower than Earth's. Well, o.k., that's a simplistic statement. Go high enough up in Earth's atmosphere and no doubt you can find a spot where the "atmospheric pressure" is...
I always wondered :confused:
When you are standing on an open area. the pressure exerted by atmosphere on your head is the total weight of the atmosphere column just above your head.Of course, divided by the area of your head.
When you are inside a closed room!
Even then the atmospheric...
I was a bit surprised to find that the average recorded atmospheric pressures at such locations as Mexico City (2.2 km above sea level) are roughly equivalent to those *at* sea level, i.e. in the 99-102 kPa range. I find this a bit odd, since the air density at this location is just under 80%...