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Although it reaches incredible speeds, a Space Shuttle is not going fast when it enters the atmosphere. The gravitational pull of Earth, or just gravity, are pulling down on the space shuttle with immense force.
Well the wiki user said ”no” that is correct but the reason is partially correct as you can see the planet earth as an “atmosphere” that is the start where gravity starts pulling on the earth there is enough gravity on the earth than on the moon so no you will not be able to on the moon because the moon as a atmosphere it just doesn’t have enough gravity so no it will not work. if you do not understand let me know by putting a confused face than I will explain further and easier for you to understand.
Although gravity is pulling it in, inertia is "pulling it out". Thus, both forces cancel, and we are left with a moon in orbit.
by the gravity pulling it in and out
1.he shot a pulling aroow
Electric pumps are more efficient pushing versus pulling and the fuel cools the pump.Electric pumps are more efficient pushing versus pulling and the fuel cools the pump.
Atmospheric pressure.
It's actually not the magnetic field, which stop the atmosphere from leaking away, but the gravitational field. The reason for the atmosphere to stay is, that the earth provides a constant amount of force relative to the mass of earth. And there is less force pulling the atmosphere into space, and the atmosphere stays with most force, but if the force pulling the atmosphere into space increased, some of the atmosphere would leak, but the closer to the ground you get the stronger is the gravity, and that's why it would take A LOT of force to counter that of Earth.
Carbon dioxide is the source of the food that plants make for themselves through photosynthesis. Photosynthesis is when plants make food out of gasses (such as Carbon dioxide). When the concentration of carbon dioxide in the air is higher, plants become more efficient in pulling the gas out of the air. This allows the plants to process the gas more quickly. Faster conversion of carbon dioxide into sugars and other organic materials translates into faster plant growth. There are many plants that won't benefit from higher carbon dioxide concentrations. These plants have certain tissues in their leaves that concentrate carbon dioxide over time. Since the gas is already concentrated inside the plant, a higher availability of carbon dioxide in the air won't make a difference. (McGill)
Gravity is an entirely separate entity which is a consequence only of the mass of the earth itself. In fact, the atmosphere presses down because gravity is pulling on it.
Terminal velocity. It will vary from planet to planet (or Moon, if it's one with an atmosphere, like Titan)
Tension is a pulling force that is exerted by solids.
If you are referring to the cetacean, they expell stale air containing carbon dioxide from their blowhole.If you are referring to the mahi-mahi (common dolphinfish) or pompano dolphinfish, they exchange carbon dioxide for oxygen in their gills by pulling oxygen-rich water through their mouths and pumping it over their gills.
They do. Levels are never the same from one day to another. Levels also rise faster in the northern winter, when there is little vegetation growing (to remove carbon dioxide from the air), and they fall slightly in the spring and summer, when the northern trees and vegetation are growing (and taking carbon dioxide from the atmosphere). Because man is pumping 26 billion tons of carbon dioxide (CO2) into the atmosphere each year, levels are also increasing yearly.
Although it reaches incredible speeds, a Space Shuttle is not going fast when it enters the atmosphere. The gravitational pull of Earth, or just gravity, are pulling down on the space shuttle with immense force.
They improve both respiratory and digestive functions for the sponge, pulling in oxygen and nutrients and allowing a rapid expulsion of carbon dioxide and other waste products.
There is a vector pulling electron density from the carbon to an oxygen atom in only a single direction, therefore formaldehyde does indeed exhibit a dipole dipole bond. Carbon dioxide on the otherhand is a nonpolar molecule. Although it has two oxygen atoms pulling electron density from the carbon, the fact that the pulling in of equal magnitude but opposite direction effectively cancels out the polarity of the bond.