physically move
When sound waves hit the membrane, it vibrates back and forth, causing the air around it to also vibrate. This vibration is then converted into electrical signals that our brain interprets as sound.
The three molecules that cannot easily pass through the membrane are large molecules, charged molecules, and polar molecules.
True. Cilia are hair-like structures that protrude from the surface of cells and can beat or vibrate in a coordinated manner to help move substances or particles across the cell surface.
Thymine is a nucleotide that occurs in DNA molecules but not in RNA molecules. In RNA, thymine is replaced by uracil.
The net gain of ATP molecules at the end of glycolysis is 2 ATP molecules. While 2 ATP molecules are consumed in the initial steps, a total of 4 ATP molecules are produced, resulting in a net gain of 2 ATP molecules.
Yes, air molecules can vibrate. When the molecules absorb energy, they begin to move and vibrate, creating sound waves. This vibration is what allows us to hear sounds in the environment.
Objects that vibrate cause air molecules to also vibrate, creating sound waves that propagate through the air. The vibrations push and pull air molecules as they travel, which our ears can detect as sound.
Atoms or molecules when they are heated.
All forms except a Bose-Einstein condensate, which only occurs at absolute zero.
Heat!
The molecules vibrate perpendicular to the direction of propagation or motion.
The molecules only vibrate about their fixed positions in solids.
vibrations make air molecules move
The molecules in a solid vibrate in place. The molecules of a liquid are moving about.
They vibrate while they move fast.
Liquids and gases can vibrate. In fact sound is the vibration of air molecules.
the molecules vibrate, faster and faster as the heat increases then they become disordered