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Match it!
Match it! Select the correct answer from the pull down...Good luck!
You do not notice atmospheric pressure on your body because _____________
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
Fluids flow ___________________
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
If you blow a steady stream of air between two sheets of paper, the papers will ______.
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
A bicycle tire remains inflated because air particles _________________________.
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
The reason you blow round bubbles and not square ones is explained by ____________.
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
You may feel discomfort in your ears when you take off in an airplane because the pressure in your inner ear __________.
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
The shape of a bird\'s wings can create ____________________
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
An object that weighs 2 N displaces 250 mL of water, which weighs 2.5 N. What is the buoyant force on the object? Will it sink or float?
2.5 N and it will float
Pascal\'s principle.
is not affected and cannot be related to the atmospheric pressure at a high altitude.
from regions of high pressure to low pressure.
displace the tire\'s density.
lift
atmospheric pressure acts evenly on your body.
move toward each other because the fast-moving air has a higher pressure than the air outside the pieces of paper.
Check it!