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Was there net movement of glucose in either direction?
There was a net movement of glucose into the cell through facilitated diffusion.
What is The net movement of electric charges is a single direction is called?
That is called an electrical current, or just a current.
What determines the direction of net movement across a cellmembrane?
The direction of net movement across a cell membrane is determined by the concentration gradient of a substance, with molecules moving from an area of high concentration to an area of low concentration. Additionally, the permeability of the membrane to the specific molecules also influences their movement. External factors such as temperature and pressure can also impact the direction of movement across the membrane.
What is the net movement of electric charges in a single direction?
The net movement of electric charges in a single direction is called electric current. This current flows through a conductor, such as a wire, and is responsible for carrying electrical energy from one place to another. It is measured in Amperes (A).
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
Was there net movement of glucose in either direction?
There was a net movement of glucose into the cell through facilitated diffusion.
What is The net movement of electric charges is a single direction is called?
That is called an electrical current, or just a current.
When will net movement of a substance stop?
Net movement of a substance will stop when the system reaches equilibrium, meaning that the concentration of the substance is uniform throughout the space. At this point, the rate of movement of the substance in one direction equals the rate in the opposite direction, resulting in no overall net movement. Factors such as temperature, pressure, and the nature of the substance can influence the rate at which equilibrium is reached.
What determines the direction of net movement across a cellmembrane?
The direction of net movement across a cell membrane is determined by the concentration gradient of a substance, with molecules moving from an area of high concentration to an area of low concentration. Additionally, the permeability of the membrane to the specific molecules also influences their movement. External factors such as temperature and pressure can also impact the direction of movement across the membrane.
How do you find the net force when the forces are acting in the same direction?
This is the simplest case of vector addition. If two forces are acting in the same direction, then you can just add them, to get the net force.
How do you find the net force when there are two acting in the same direction?
This is the simplest case of vector addition. If two forces are acting in the same direction, then you can just add them, to get the net force.
How do you compute the net force of forces acting in the same direction?
In the same direction, you simply add them
What is the net movement of electric charges in a single direction?
The net movement of electric charges in a single direction is called electric current. This current flows through a conductor, such as a wire, and is responsible for carrying electrical energy from one place to another. It is measured in Amperes (A).
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
How do you calculate the net force when two people are pushing in the same direction?
To calculate the net force when two people are pushing in the same direction, you simply add their individual forces together. The net force will be the sum of both forces acting in the same direction.
What is the net force of a 2.0 N force and an 3.0 N force acting on an object in the same direction?
The net force is the sum of the individual forces, so in this case the net force would be 5.0 N since the forces are acting in the same direction.
What hapPens to the net force of the object if it is at rest?
If an object is at rest, the net force acting on it is balanced - meaning the forces pushing in one direction are equal to the forces pushing in the opposite direction. This results in a net force of zero, keeping the object stationary.
