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What is random molecular motion?
Random molecular motion refers to the constant, unpredictable movement of molecules due to their thermal energy. This motion occurs in all substances, and the speed and direction of the molecules change rapidly as they collide with each other and their surroundings. It is this random motion that contributes to various macroscopic properties of matter, such as diffusion and viscosity.
Which term describes the describes the disorder of random molecular motion?
entropy
The kinetic molecular theory assumes that the particles of an ideal gas?
are small, point-like particles that are in constant random motion, and have perfectly elastic collisions with each other and the container walls. Additionally, they have negligible volume compared to the volume of the container in which they are enclosed.
State two characteristics of matter demonstrated by brownian motion?
Brownian motion demonstrates that matter is composed of small, invisible particles that are in constant random motion. It also shows that matter is influenced by collisions with other particles, leading to the random movement observed.
How does Brownian motion drive diffusion?
Brownian motion is the random motion of particles in a solution resulting from their collisions. Diffusion happens as more and more collisions happen between the particles, they become more interspersed with each other.
Is the random movement and mixing of particles?
Brownian motion is the random moving and mixing of particles.
Which type of motion is moving of mosquito across a room?
The motion of a mosquito moving across a room is an example of translational motion, where the mosquito is moving from one point to another in a straight line.
What term describes the disorder of random moleculer motion?
Brownian motion describes the disorder of random molecular motion. It is the random movement of particles in a fluid or gas due to their collisions with other particles.
When powdered chalk is suspended in water and observed under a microscopethat chalk particlesappear to move in a random wayWhat is the cause of this random motion?
This is an example of Brownian motion. The chalk suspended particles tend to move in the water and thus is big enough to be seen under a microscope. Brownian motion is the visible motion of small pieces of any solid that can be seen under a light microscope
What was the source of motion in the particles that Brown investivated?
The source of motion in the particles Brown investigated was random thermal energy from the surrounding fluid. This random motion is known as Brownian motion.
What is Brownian motion caused by?
Brownian motion is caused by the random collision of particles in a fluid with surrounding molecules. This random motion is influenced by the thermal energy present in the system, leading to the constant and random movement of particles.
What is the random motion of molecules called?
it is called the atomis it is called the atomis
The motion of two substances by the random motion of molecules is called?
Brownian motion
What are different types of random motion?
Some different types of random motion include Brownian motion (the random movement of particles in a fluid), particle diffusion (random movement of particles from areas of high concentration to low concentration), and random walk (a mathematical model describing a path that consists of a succession of random steps in various directions).
What particles move around the nucleus in constant and random motion?
Electrons are the particles that move around the nucleus in constant and random motion.
What is browniamotion and where you can find examples of brownianmotion?
Brownian motion is the random movement of particles suspended in a fluid as they collide with other particles. A common example is the movement of pollen grains in water. You can observe Brownian motion in action by observing the random movement of tiny particles under a microscope.
What is random molecular motion?
Random molecular motion refers to the constant, unpredictable movement of molecules due to their thermal energy. This motion occurs in all substances, and the speed and direction of the molecules change rapidly as they collide with each other and their surroundings. It is this random motion that contributes to various macroscopic properties of matter, such as diffusion and viscosity.
