If they both have the same charge the one with the higher speed will be deflected more (Google lorentz force).
when a charged particle is moving with some velocity it produces some magnetic field. If we place that charged particle in presence of external magnetic field it gets affected by that external field.
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.
increased
The velocity of gaseous or other particles in the exhaust stream of the nozzle of a reaction engine, relative to the nozzle.
In a flow of matter, such as in a rocket, velocity lag is the speed difference between the flowing gas particles and solid/liquid particles. Any amount of velocity lag slows down the overall force and speed of the matter flow.
Alpha particle is the nucleus of helium atom. That is doubly ionized one. Hence alpha particle is massive and so its velocity is comparatively low. As it is massive it has good ionization power but penetration would become difficult. Isn't? Because it is helium nucleus, it has two positive charges. So can be deflected by electric and magnetic field. But gamma radiation is photons whose rest mass is zero. It is charge less. So cannot be deflected by electric and magnetic field. Its velocity is the highest in the universe ie the velocity of light. It has good penetrating power but least ionizing power.
Because charge particles produces magnetic field which causes electromagnetic force that's why moving charges move with the velocity equal to the velocity of light.
1800 magnetic deflection is mainly used in mass spectrograph for separating the different types of ions or for focusing the charged particles of same momentum on the screen nearly at the same point when they enter through the slit at different angles. Hence it is also known as 1800 magnetic focusing or momentum selector. When a beam of charged particles enters through a slit in a uniform magnetic field B in direction perpendicular to the direction of field with a velocity v the particles move in a circular path the radius of which is r=mv/qB. Thus a beam of particles of same momentum mv can be obtained after 1800 deflection .
A charged particle is accelerated in magnetic field if it has a velocity. F = Q v x B, where v x B is cross-product of speed and magnetic flux vectors. According to Newton F = ma where you can find the acceleration if you know the mass.
flattened clay particles
Helical motion refers to the motion of an object moving along a helix, which is a three-dimensional spiral shape. This type of motion combines linear and rotational movements, resulting in a path that moves both along an axis and in a circular pattern simultaneously. Helical motion is commonly observed in various mechanical systems and natural phenomena.
rate of collisions between particles. average velocity of the particles.
when a charged particle is moving with some velocity it produces some magnetic field. If we place that charged particle in presence of external magnetic field it gets affected by that external field.
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.
increased
The velocity of gaseous or other particles in the exhaust stream of the nozzle of a reaction engine, relative to the nozzle.
In a flow of matter, such as in a rocket, velocity lag is the speed difference between the flowing gas particles and solid/liquid particles. Any amount of velocity lag slows down the overall force and speed of the matter flow.