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A meteorologist uses what is known as super computers to study the atmosphere. It shows them where all the weather fronts and pressure systems are as well as all the moisture, winds, and the temperatures to come up with a forecast. There are a dozen to a couple dozen different weather models they look at to figure out what is going on in the atmosphere and what weather to expect.
The car that is highest has the most potential energy.
it could be possible...but scients still did not figure it out yet!
Carbon dioxide in 2014 made up 0.04% of the atmosphere. This figure is rising every year.
Use a blood pressure cuff (sphygonometer, or something). The reading will be something like 120/90 where the higher number is the pressure of the heartbeat (systolic) and the lower number is the pressure between beats (diastolic).
who knows. im trying to figure it out
who knows. im trying to figure it out
A meteorologist uses what is known as super computers to study the atmosphere. It shows them where all the weather fronts and pressure systems are as well as all the moisture, winds, and the temperatures to come up with a forecast. There are a dozen to a couple dozen different weather models they look at to figure out what is going on in the atmosphere and what weather to expect.
you cannot figure out the change in velocity given just the distance and loss of potential energy. you need more information
Duke is a character in the children's book series "The Story of Tracy Beaker" by Jacqueline Wilson. He is a social worker who works at the children's home where Tracy Beaker lives. Duke is portrayed as a kind and supportive figure who cares for Tracy and the other children in the home.
The car that is highest has the most potential energy.
I assume you mean something like 1.0138 x 105 pascal - some details may get lost in the question. Pressure is defined as force divided by unit area, so if you solve for force, you get: force = pressure x area All you have to do is convert the measurements to meters, and multiply, to get the area - and then multiply the area by the pressure.
it could be possible...but scients still did not figure it out yet!
Carbon dioxide in 2014 made up 0.04% of the atmosphere. This figure is rising every year.
what is usually accepted as a healthy blood pressure for a 78 year male
Dalton's law simply states that the total pressure is equivalent to Pressures1 + Pressures2 + Pn and so on...In regards to what relationship it has to the atmosphere this law can be applied to the various layers of the atmosphere and the individual pressures that each layer exerts upon the earth's surface.Hypothetical Example:Ionosphere's pressure = 0.01lb/insqLithosphere's pressure = 0.04lbs/insqadd these together and you will have the combined pressure exerted upon the earth.You can also find the density of each of the individual layers by this pressure and figure out which gas(es) preside with in each of them.This law is typically used to find the pressures of pure gases such as hydrogen or helium via in the chemistry lab. Each gas exerts a varied amount of pressure under different environmental circumstances such as Temp, elevation and whether or not it is in a sealed system.
Usually figure 10 lbs of pressure per 1000 rpm.