The average velocity of any container of fluid is zero. But if you are talking about individual particles, the more heat that is added to the fluid the more energetic/faster the particles become.
the kinetic energy of a particle depends on the movement of each particle;that is the mass of the particle and the velocity of each particle.the particles of each matter or substance has a different heat resistance. when the temperature exceeds the resistance of the particles the movement of the particles would increase drastically.therefore making the velocity more and the mass lesser............. KE=1/2*m*v*v so when the temperature increases the mass is reduced and the velocity increases.
Thermal velocity can be defined as the speed at which particles move to make up a gas, liquid, or other such substance. Thermal velocity is a measurement of temperature. This is a common term used in medicine research.
bounce and rebound against each other with a velocity dependent on the temperature.
IF and ONLY IF when the mass of particles are same. Large particle sizes will need high stream's velocity to carry it from one place to another,In another word If the stream velocity is slow than large particle sizes will be stationary.
By changing the temperature of the liquid (an object is dropping in) the velocity is likely to increase as the temperature increases because by increasing the temperature of the liquid, the result would be that the object's velocity will increase.submittted by munchez :-)
No. Raising the temperature of the particles will cause their velocity to increase, which in turn causes them to collide with each other/the container more often and with more force.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
Temperature is proportional to energy and energy of gas particles is related to their velocity via E= 1/2mv2. So if the temperature doubles then the velocity of the individual particles increases by (4dE/m)1/2 =v
rate of collisions between particles. average velocity of the particles.
Our interpretation of heat is based on the Maxwell-Boltzmann distribution of velocities among particles, the highest point on this distribution being the "temperature." As the heat energy increases (proportional to temperature) said distribution stretches to the right, meaning the average velocity of a particle increases. This increased velocity would either result in particles hitting the walls of the container with more frequency and force, resulting in a higher pressure (Gay-Lussac's Law) but if the volume of the container is not fixed (think balloon) then the volume will increase (Charles' Law) since there are the same number of particles but now they occupy a larger volume they would thus be more "spread out." tl;dr heat increase=>temperature increase=>velocity increase=>volume increase (Charles' Law)=> "spread out" particles
The particles move more rapidly
The average amount of motion can be determined by the average speed or velocity of an object. The average speed can be calculated by the total distance divided by the total time. Speed is a scalar quantity. The average velocity can be calculated by the total displacement divided by the total time. Velocity is a vector.
the kinetic energy of a particle depends on the movement of each particle;that is the mass of the particle and the velocity of each particle.the particles of each matter or substance has a different heat resistance. when the temperature exceeds the resistance of the particles the movement of the particles would increase drastically.therefore making the velocity more and the mass lesser............. KE=1/2*m*v*v so when the temperature increases the mass is reduced and the velocity increases.
Well the temperature of a gas in a container is directly proportional to the pressure of the gas & according to the kinetic theory of gases (viewing gases as made of particles which are in constant random motion) the change in pressure with respect to temperature is given by 2mvx where m is mass and vx the x-coordinate of the initial velocity of the particle. (looking at it as the molecules are colliding with the walls of the container along an axis, x in this case). this proportionality is the basis (implicitly) of Charles's law, Gay-Lussac's law and Boyle's law.
Thermal velocity can be defined as the speed at which particles move to make up a gas, liquid, or other such substance. Thermal velocity is a measurement of temperature. This is a common term used in medicine research.