diffusion is the transefer of said product from high to low concentration on the outside of the organism.
e.g when in water skin wrinkles as their is water outside and water diffuses from your skin to the water outside as it has a higher concentration of molecules.
You can increase diffusion by increasing the concentration of the other product on the outside.
hope this helped.
Oxygen diffusion increases as the need increases. It is a matter of supply and demand.
the rate of diffusion increases. the increase in the temperature makes the molucules move faster giving space for diffusion to occur and the amount and the time increases.
Yes, glucose concentration can affect the diffusion rate. According to Fick's laws of diffusion, the rate of diffusion is influenced by the concentration gradient; a higher concentration of glucose leads to a steeper gradient, which typically increases the rate of diffusion. However, diffusion can also be influenced by factors such as temperature, membrane permeability, and the medium through which diffusion occurs. Therefore, while concentration plays a significant role, it is one of several factors that determine the overall diffusion rate.
The diffusion rate in solid metal crystals is influenced by factors such as the temperature of the crystal (higher temperature increases diffusion rate), the presence of defects or imperfections in the crystal structure (such as vacancies or dislocations), and the composition of the metal crystal (alloying elements can affect diffusion rate). Additionally, the crystal structure and grain boundaries can also impact diffusion rates in solid metal crystals.
Three main factors that affect diffusion are temperature (higher temperature increases rate of diffusion), concentration gradient (greater difference in concentration leads to faster diffusion), and surface area (larger surface area allows for more diffusion to occur).
As the partial pressure increases, the rate of diffusion also increases. This is because there is a greater concentration gradient driving the movement of molecules from high to low pressure areas, leading to faster diffusion.
Oxygen diffusion increases as the need increases. It is a matter of supply and demand.
The rate of diffusion typically increases with increasing temperature because higher temperatures increase the kinetic energy of particles, causing them to move more rapidly. This increased movement allows particles to spread out and mix more quickly, leading to a faster rate of diffusion.
Temperature and diffusion rates are usually linearly proportional. As temperature increases diffusion rate also increases and vice versa. In most cases, diffusion rate will reach 0 after saturation or the maximum possible temperature.
As temperature increases, the diffusion rate generally increases. This is because higher temperatures lead to higher kinetic energy of the molecules, allowing them to move more rapidly and diffuse more quickly. However, there is a limit to this relationship as extremely high temperatures can denature proteins and disrupt cellular structures, leading to a decrease in diffusion rates.
The rate of diffusion is influenced by the concentration gradient, temperature, molecular size, and the medium through which the particles are diffusing. A steeper concentration gradient, higher temperature, smaller molecular size, and a less dense medium all tend to increase the rate of diffusion.
yes the higher the temprature the quicker the rate of diffusion
the rate of diffusion increases. the increase in the temperature makes the molucules move faster giving space for diffusion to occur and the amount and the time increases.
Faster diffusion will take place if the surroundings are warmer. Increase in temperature means an increase in molecules' speed (kinetic energy). So the molecules move faster and there will be more spontaneous spreading of the material which means that diffusion occurs more quickly.
The diffusion rate in solid metal crystals is influenced by factors such as the temperature of the crystal (higher temperature increases diffusion rate), the presence of defects or imperfections in the crystal structure (such as vacancies or dislocations), and the composition of the metal crystal (alloying elements can affect diffusion rate). Additionally, the crystal structure and grain boundaries can also impact diffusion rates in solid metal crystals.
Blood is taken away from the lungs as it circulates.
Three main factors that affect diffusion are temperature (higher temperature increases rate of diffusion), concentration gradient (greater difference in concentration leads to faster diffusion), and surface area (larger surface area allows for more diffusion to occur).