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What else can I help you with?
How do you convert a pressure Pa in to head m?
To convert pressure in Pascals (Pa) to head in meters (m), you can use the formula h = P/(ρ*g), where h is the head in meters, P is the pressure in Pascals, ρ is the density of the fluid in kg/m^3, and g is the acceleration due to gravity in m/s^2. By dividing the pressure by the product of the density of the fluid and acceleration due to gravity, you can calculate the head in meters. This conversion is commonly used in fluid mechanics to relate pressure to the height of a fluid column.
In relation to a microscopewhat is magnification and resolution?
Magnification is the amount by which the image you see will be larger than the actual object, ie. if the image you see appears to be twice as large as the original object then it will be a 2x magnification. (magnification = size of image / size of object) Resolution is the smallest possible visible thing on the enlarged image. On a satellite picture the resolution may be 1m2 meaning that anything smaller is not visible on that picture. In the case of an electron microscope, for example, anything smaller than 1 electron will not be visible using the electron microscope.
What is measure of the force of gravity acting on an object?
equation for total acceleration (ta) between two objects:ta = (G*(m1+m2))/d^2G= 6.67*10^-11m1= mass , object 1m2= mass , object 2d = distancethe acceleration is shared, in ratio proportional to masses, example:if mass 1 = 100 kg and mass 2 = 10 kg then total = 110 kga(mass 1) = ta * 100/110a(mass 2) = ta * 10/110the greater mass causes the greater acceleration in the other object(adding the following)above should read:a(mass 1) = ta * 10/110a(mass 2) = ta * 100/110if the distance is say 0.5 metres, the the total acceleration is 2.936*10^-8then the acceleration on the 10 kg mass = 2.669 * 10^-8 (m/s)/sso f= maso f =2.669 * 10^-7 newtonsthen the acceleration on the 100kg mass = 0.2669 * 10^-8 (m/s)/sso f= m*aso f = 2.669 * 10^-7 newtonsthere's a quicker way of doing the whole thing:use f= (G * m1 * m2)/ d^2same masses and distancef = 2.669 * 10^-7 newtonssorry about that
Why is gravity less on the top of a mountain than at sea-level?
Because as you get farther away from Earth's center, the gravitational force between you and Earth weakens.To understand the gravitational force experienced by an object (such as a space craft) due to another object (such as the earth), we may look to Newton's Universal Law of Gravitation.F = G*(m1 * m2) / r2Where:F = Force of Gravity between object 1 and object 2G = Universal Gravitational Constant (was found with a lot of experiments)m1 = The mass of object 1m2 = The mass of object 2r2 = The squared distance between object 1 and 2 (spacecraft to centre of earth - centre is used as an average, in actual fact you'd have to get in to differential equations to correctly account for the non-uniform distribution and changing of mass of Earth)If you actually work it out, you'll find that the force due to gravity you'll experience on the top of a mountain versus sea-level will be marginally less. Like, irrelevantly.What? You want me to explain more? Sigh. Okay.mass of earth (m1) is approx. 5.9742 × 1024 Kgmass of a person (m2), let's assume it to be 80 KgG = 6.674×10−11 N m2 Kg−2r1 = radius of earth (sea level) 6378.1 Kmr2 = radius of earth + height of Mt Everest 6378.1+8.85 = 6387KmF1 (gravitation force experienced @ sea level) = [6.674×10−11 N m2 Kg−2 * 5.9742 × 1024 Kg * 80 Kg] / (6378100m)2F2 (gravitation force experienced @ top of Everest) = [6.674×10−11 N m2 Kg−2 * 5.9742 × 1024 Kg * 80 Kg] / (6387000m)2delta(F1,F2) = (1/(63870002)) - (1/(63781002)) [factored out the common stuff]delta(F1,F2) = 4.079377*10-13 - 4.068*10-13delta(F1,F2) = 1.1377 × 10-15For contrast, the number of cells in the human body is considered to be of the order of 10 trillion cells (1012).So, the difference is the same difference as taking 100 (102) human bodies, counting all the cells (sea level) and then adding one more cell (top of everest).That's "engineering" speak for, there's no realistic difference.Now, if you start computing the actual net gravitational force you experience, you'd need to dive in to far more interesting math. You'd need to consider other planetary bodies, other mountains, the mountain your own and so on. That'd nevertheless be remarkably pointless as everything's moving and the net force can be very very closely approximated with Newton's Law of Gravitation, without getting in to math that makes physics professors salivate and people with jobs weep.This then leaves the question of why things in space float? Thing is, they don't at all. They only seem to. The force of gravity between earth and that spaceship I mentioned is going to be VERY similar to the force experienced between the two at sea level. The key is that as the spaceship is in free fall towards the planet, it also moves (VERY fast) tangent to the planet's surface. It works out that the tangent ("straight") distance traveled by the spaceship is largely cancelled out by how far it falls towards the planet. Not a great explanation, but I'm right.Phew, I think I can rest easy, for now.
What is the unit for pressure which is equal to 1 n exerted over 1m2?
the SI unit of pressure is pascal ,which is 1N per meter sq.
What is the force of you n acting over an area of 1m2 called?
Pressure
Is 1m2 equal to 100cm2?
fudge this website
How many 1m2 is in 1m3 at 150mm?
1m2
1 cubic meter equal square meter?
No, One cubic meter is 1m3 One square meter is 1m2
How many sq mm EQUAL to sq mt?
One meter is equal to 1000 millimeters. The way to consider the relation ship of square meters and millimeters is not to think of them a special units of their own, but simply as squares of the original units. one square meter is equal to one meter squared. Similarly, one square millimeter is equal to one millimeter squared. Since a square meter equals one meter squared, and one meter is equal to 1000 millimeters, we can say then, that a square meter is equal to (1000mm) squared. Or: 1m = 1000mm 1m2 = (1m)2 1m2 = (1000mm)2 1m2 = 1000000 mm2 So one square meter is equal to one million square millimeters.
How much mortar in 1m2 of brickwork?
1m2 of half brickwall required around 0.03m3 cement mortar
How many cm2 are there 1m2?
1m=100cm 100*100=10 000 answer: 1m2 is 10 000cm2
How many blocks in 1m2?
there a 12.5
What is 6m plus 1m2?
If by "1m2" you mean 1 square meter, there is no answeras 6m (six meters) is a linear measurement and 1m2 (one square meter) is an area measurement and you cannot add different dimensions. - for example you cannot add an inch to a pint either!If by 1m2 you mean 1,2 m (one and two tenths meters) the answer is 7,2m
How many meters make a square meter?
1m2
How many mm2 are there in 1m2?
1m² = 1,000,000 mm²
