The fluids in your body exert pressure and prevent the atmospheric pressure from closing in. Fluids exert pressure on a container the particles collide with each other and the sides of the container.
Atmospheric pressure does not crush our lungs because the pressure inside our bodies is equal to the pressure outside. This balance allows our lungs to expand and contract without being crushed.
Our bodies are designed to withstand and adapt to the normal atmospheric pressure we experience every day. The pressure inside our bodies balances the external atmospheric pressure, so we don't feel it. This balance prevents our bodies from being crushed by the atmospheric pressure.
Our bodies are constantly under pressure from the atmosphere, but our internal pressure matches the external pressure, so there is no net force pushing on us. Additionally, our bodies contain fluids and structures that help distribute and balance the forces acting on us, preventing us from being crushed by the atmospheric pressure. The pressure inside our bodies is equal to the pressure outside, keeping us in equilibrium.
Water boils at 100 degrees Celsius under normal atmospheric pressure.
Yes, gauge pressure includes atmospheric pressure. Gauge pressure is the pressure measured above atmospheric pressure, so it accounts for the atmospheric pressure as a reference point.
The force is equal to when you experience these feelings.
A human would be crushed by the intense atmospheric pressure, which is 90 times that of the Earth's atmospheric pressure.
They would quickly be crushed by the atmospheric pressure.
On Mercury, a can would not be crushed due to gravity because the planet's gravity is too weak. However, the can could be crushed due to the high atmospheric pressure on Mercury, which is about 100 times greater than Earth's atmospheric pressure.
no air, high atmospheric pressure, would be crushed
Atmospheric pressure does not crush our lungs because the pressure inside our bodies is equal to the pressure outside. This balance allows our lungs to expand and contract without being crushed.
They would suffocate. And be crushed by gravity and (maybe) atmospheric pressure.
Our bodies are designed to withstand and adapt to the normal atmospheric pressure we experience every day. The pressure inside our bodies balances the external atmospheric pressure, so we don't feel it. This balance prevents our bodies from being crushed by the atmospheric pressure.
Like the air inside a baloon, the fluids inside your body exert pressure. This pressure inside your body acts against atmospheric pressure. I was looking for the answer for a school assignment! Textbooks help!
You will need to use a carbon scrubber device to capture co2 under atmospheric pressure.
Because your body can only with stand a certain amount of pressure because of your internal organs
Our bodies are constantly under pressure from the atmosphere, but our internal pressure matches the external pressure, so there is no net force pushing on us. Additionally, our bodies contain fluids and structures that help distribute and balance the forces acting on us, preventing us from being crushed by the atmospheric pressure. The pressure inside our bodies is equal to the pressure outside, keeping us in equilibrium.