Diffusion is the process where particles spread out from areas of high concentration to low concentration.

Osmosis is the movement of water molecules from a dilute solution to a more concentrated solution across a partially permeable membrane.

What is the difference between diffusion and facilitated diffusion?

Facilitated diffusion requires special carrier proteins while diffusion does not.

What are some examples of diffusion in nature?

Examples include oxygen moving from alveoli into blood and carbon dioxide moving into plant leaves.

What happens to animal cells during osmosis?

Animal cells can shrivel up when water moves out due to osmosis.

What happens to plant cells during osmosis?

Plant cells can swell and become turgid when water moves in, due to their strong cell wall.

What is active transport?

Active transport is the movement of substances against their concentration gradient, requiring energy.

Why do cells need to transport substances?

Cells need to transport substances to take in nutrients and remove waste effectively.

What are specialized exchange surfaces?

Examples include alveoli in lungs, root hairs in plants, and nephrons in kidneys.

What is a concentration gradient?

A concentration gradient is the difference in concentration of a substance between two areas.

Transport in Cells: Diffusion and Osmosis | Cells | Biology | FuseSchool

00:03:52

https://www.youtube.com/watch?v=PRi6uHDKeW4

Sintesi

TLDRThe video explores how cells transport substances through diffusion, osmosis, and active transport across the cell membrane. It explains that diffusion involves the movement of particles from high to low concentration, seen in examples like gas exchange in lungs and nutrient absorption in the intestines. Osmosis refers specifically to the movement of water molecules, with cases such as plant roots absorbing water and how animal cells react to changes in water concentration. The series also hints at active transport, which moves substances against their concentration gradient and requires energy, setting the stage for deeper exploration in part 2.

Punti di forza

🍰 **Diffusion** not only spreads smells but also substances across membranes.
💧 **Osmosis** is crucial for water movement in cells.
🚪 **Facilitated Diffusion** requires carrier proteins for glucose and ions.
🌿 **Gas Exchange** in lungs demonstrates diffusion in action.
🏞️ **Osmosis** affects plant cells' firmness and shape.
🚰 **Water Absorption** in plants and intestines utilizes osmosis.
🚨 **Active Transport** moves substances against the gradient, requiring energy.
🌊 **Concentration Gradient** is essential for understanding these processes.

Linea temporale

00:00:00 - 00:03:52
In this video, we explore how cells transport substances through diffusion, osmosis, and active transport. The exchange of materials between cells and their environment occurs across the cell membrane, with specialized structures enhancing efficiency. We start with diffusion, illustrated by the spreading smell of cake, where particles move from high to low concentration, facilitating gas exchange in the lungs and nutrient absorption in the intestines. Facilitated diffusion requires carrier proteins for substances like glucose. Osmosis, the water equivalent of diffusion, involves water movement across a partially permeable membrane, affecting cellular turgidity in plant and animal cells. The section ends with a teaser for active transport in part 2.

Mappa mentale

Video Domande e Risposte

What is diffusion?
Diffusion is the process where particles spread out from areas of high concentration to low concentration.
What is osmosis?
Osmosis is the movement of water molecules from a dilute solution to a more concentrated solution across a partially permeable membrane.
What is the difference between diffusion and facilitated diffusion?
Facilitated diffusion requires special carrier proteins while diffusion does not.
What are some examples of diffusion in nature?
Examples include oxygen moving from alveoli into blood and carbon dioxide moving into plant leaves.
What happens to animal cells during osmosis?
Animal cells can shrivel up when water moves out due to osmosis.
What happens to plant cells during osmosis?
Plant cells can swell and become turgid when water moves in, due to their strong cell wall.
What is active transport?
Active transport is the movement of substances against their concentration gradient, requiring energy.
Why do cells need to transport substances?
Cells need to transport substances to take in nutrients and remove waste effectively.
What are specialized exchange surfaces?
Examples include alveoli in lungs, root hairs in plants, and nephrons in kidneys.
What is a concentration gradient?
A concentration gradient is the difference in concentration of a substance between two areas.

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Sottotitoli

Scorrimento automatico:

00:00:14
can you smell that delicious cake
00:00:16
have you ever wondered why your fingers
00:00:18
prune in water or how plants manage to
00:00:20
take up nutrients from the soil
00:00:22
all of these things require the movement
00:00:24
of substances by either diffusion
00:00:26
osmosis or active transport
00:00:28
in this two-part series we're going to
00:00:30
discover how cells take in useful
00:00:32
substances and remove waste using these
00:00:35
three methods of transport
00:00:37
the exchange of materials occurs between
00:00:39
cells and their environment across the
00:00:40
cell membrane
00:00:42
to make this exchange as efficient as
00:00:43
possible some organisms have evolved
00:00:45
specialized exchange surfaces like the
00:00:47
alveoli in the lungs or root hairs and
00:00:50
plants or the nephrons and kidneys
00:00:52
depending upon what is being exchanged
00:00:54
and which direction along the
00:00:55
concentration gradient things are
00:00:57
travelling will determine whether
00:00:58
diffusion osmosis or active transport
00:01:01
will be used
00:01:03
let's start with diffusion the lovely
00:01:06
smells of the cake spread around the
00:01:07
room by diffusion diffusion is the
00:01:09
process in which particles spread out
00:01:11
from each other they move from high
00:01:13
concentration so right by the cake to an
00:01:16
area of low concentration so everywhere
00:01:19
else in the room
00:01:20
in diffusion particles move down the
00:01:22
concentration gradient until they are
00:01:24
evenly distributed for particles to move
00:01:27
like this they need to be a gas or
00:01:29
particles of a dissolved substance
00:01:32
diffusion is seen throughout nature and
00:01:34
allows substances to pass into or out of
00:01:36
cells across the cell membrane but they
00:01:38
must be dissolved and there must be a
00:01:40
concentration gradient that they can
00:01:42
move from high concentration to low
00:01:43
concentration
00:01:46
gas exchange in the lungs so oxygen
00:01:48
moving from the alveoli into the blood
00:01:50
and carbon dioxide from the blood into
00:01:52
the alveoli are both great examples of
00:01:54
diffusion
00:01:56
carbon dioxide moving from the air into
00:01:58
the leaves of plants also moves by
00:01:59
diffusion but it doesn't have to be a
00:02:01
gas how digested foods like amino acids
00:02:04
move from the small intestine into the
00:02:06
blood also moves by diffusion
00:02:08
you can also have facilitated diffusion
00:02:10
where the movement is still down the
00:02:12
concentration gradient but special
00:02:14
carrier proteins are required to enable
00:02:15
the movement glucose and ions need
00:02:17
carrier proteins to move across the
00:02:19
membrane
00:02:23
osmosis is very similar to diffusion but
00:02:25
just for water
00:02:26
it is the movement of water into or out
00:02:29
of a cell
00:02:30
again it is the movement from a dilute
00:02:32
solution so high concentration of water
00:02:34
molecules down the concentration
00:02:36
gradient to a more concentrated solution
00:02:39
so low concentration of water molecules
00:02:42
the water molecules move across a
00:02:44
partially permeable membrane water
00:02:46
molecules move at random so some do go
00:02:48
back across the membrane
00:02:50
but the overall net effect is that there
00:02:52
is movement to the more concentrated
00:02:53
side or the side with less water until
00:02:55
equilibrium is reached or until there is
00:02:57
no net movement of water anymore
00:03:01
osmosis out of a cell can cause big
00:03:03
changes animal cells shrivel up and in
00:03:06
plant cells the membrane and cytoplasm
00:03:08
shrink away from the cell wall causing
00:03:10
the cell to become flaccid
00:03:12
and if osmosis causes lots of movement
00:03:14
of water into the cell plant cells swell
00:03:17
and become turgid they have a strong
00:03:19
cell wall which prevents them from
00:03:20
bursting whereas animal cells don't have
00:03:22
a cell wall and so they burst
00:03:26
the absorption of water by plant roots
00:03:28
and the absorption of water in the small
00:03:29
intestine and the colon all use osmosis
00:03:33
so we know all about the movement of
00:03:35
gases and water
00:03:36
but what is active transport for
00:03:38
watch part 2 to learn about active
00:03:40
transport
00:03:51
you

Tag

Diffusion
Osmosis
Active Transport
Cell Membrane
Concentration Gradient
Gas Exchange
Nutrient Absorption
Specialized Surfaces
Plant Cells
Animal Cells