I'm not exactly sure... but both move from low concentration areas to high concentration areas. So...I'm im guessing they both diffuse into a membrane. Don't think I'm smart..I just have this for homework!!! =) hope this helped!!!!!!!!!!!!!
You are slightly right. Both move from low concentrations to high concentrations. Active Transport however requires energy as ATP whereas diffusion is a passive process. Hope this helped :)
They both transport ions, sugars, and salts across the membrane.
Both facilitated diffusion and active transport use proteins as their means of transporting their materials to and from the cell.
Use of a different necessary process besides the particular element transport.
In active transport this process is energy consumption and in facilitated transport it is simultaneous transport of another element.
They Both transport different molecules throught a cell/ cell membrane. Yet, Active transport uses energy while passive requires no energy what-so-ever
my name Fred i like pie pie is good.
p.s.fire bad
They are the 2 options particles can use to cross a cell membrane, either in, or out of a cell
Water is transported from root to the top of the plant by both methods.
The both move molecules in and out of the membrane. (thats the only similarity)
Transport proteins embedded in the plasma membrane.
There are multiple ways for cells to transport things across a difference in concentration. The most common process is diffusion, which is the movement from high concentration to low. Osmosis is the most popular example of this. Facilitated Diffusion is basically diffusion with the use of proteins that are specified for certain molecules. Active Transport is the method by which molecules are transported from low concentration to high concentration.
Active transport is the movement of molecules across a membrane requiring energy to be expanded by the cell. ACTIVE TRANSPORT REQUIRES ENERGY. Passive transport is diffusion across a membrane requiring only random motion of molecules with no energy expanded by the cell. PASSIVE TRANSPORT REQUIRES NO ENERGY.
There are many mechanisms for water to move through a membrane. Passive diffusion (osmosis) and facilitated diffusion are common biological processes. Sometimes a fluid like water can be forced through with hydrostatic pressure (water pressure), although this is less common in normal physiology.
Both processes remove impurities
Both processes remove impurities.
Active transport is when proteins move substances into the cell while expending energy. Facilitated diffusion is the movement of chemicals through a protein into a cell.
nothing
Movement of particles .
There are multiple ways for cells to transport things across a difference in concentration. The most common process is diffusion, which is the movement from high concentration to low. Osmosis is the most popular example of this. Facilitated Diffusion is basically diffusion with the use of proteins that are specified for certain molecules. Active Transport is the method by which molecules are transported from low concentration to high concentration.
They are both the movement of particles but active transport uses energy, so it can move against the concentration gradient.
Sodium pump
photosynthesis and cellular respiration can smd.
Active transport is the movement of molecules across a membrane requiring energy to be expanded by the cell. ACTIVE TRANSPORT REQUIRES ENERGY. Passive transport is diffusion across a membrane requiring only random motion of molecules with no energy expanded by the cell. PASSIVE TRANSPORT REQUIRES NO ENERGY.
In the field of passenger transport, 'active' transport refers to modes of transport which require the passenger to take a physical role in moving themselves. The most widely used modes of active transport are walking & cycling (running, swimming & even rowing are less common examples). Active transport is often recommended as part of a healthy lifestyle because it allows people to incorporate exercise into their daily routines (e.g. cycling to the shops or walking to work). In most cases, active transport is GOOD for you. However, it is sensible to assess the risks: for example, walking in a crime-spot at night or cycling too close to motorised traffic could be bad for you. [Note - in science, 'active transport' means something different]
Life continues because living organisms are able to carry out a range of important processes using specialized cells, tissues and organs. Many of these processes, such as respiration, excretion and transport are common to both plants and animals, but some - such as photosynthesis - are unique to one group or the other.
Both involve the transport of materials across the cell membrane. Active transport goes against the concentration gradient and requires ATP. Diffusion goes with the concentration gradient, or from high to low concentration, and does not require ATP. ATP is the standard unit of energy in cells.
Glycolysis, the Krebs Cylce (aka citric acid cycle), electron transport chain