# acceleration voltage meaning in Hindi

acceleration voltage sentence in Hindi • किरणपुंज वोल्टता • त्वरण वोल्टता • त्वरण-वोल्टता | |

acceleration: तेज़ी त्वरण | |

voltage: खिंचाव तनाव | |

### Examples

*Acceleration voltages*of up to 200 kV are achievable.- On the other hand, intense sources are more difficult to make and higher
*acceleration voltages*are needed for a given range. - Because the transverse deflection can be described with polar coordinates, one may define a deflection or polarization angle using the transverse
*acceleration voltage*components. - For the special case of an electrostatic field that is surpassed by a particle, the
*acceleration voltage*is directly given by integrating the electric field along its path. - RF cavities can also manipulate charged particles passing through them by application of
*acceleration voltage*and are thus used in particle accelerators and microwave vacuum tubes such as klystrons and magnetrons. - The "'time-independent shunt impedance "', \ scriptstyle R _ 0, with the time-independent
*acceleration voltage*\ scriptstyle V _ 0 is defined: - When a particle is deflected in transverse direction, the definition of the shunt impedance can be used with substitution of the ( longitudinal )
*acceleration voltage*by the transverse effective acceleration voltage, taking into account transversal Coulomb " and" - When a particle is deflected in transverse direction, the definition of the shunt impedance can be used with substitution of the ( longitudinal ) acceleration voltage by the transverse effective
*acceleration voltage*, taking into account transversal Coulomb " and" - The
*acceleration voltage*is used to determine the energy of the electrons; lower-energy ones are absorbed in the top layer of the phosphor, while some of the higher-energy ones shoot through and are absorbed in the lower layer. - The longitudinal "'effective
*acceleration voltage*"'is given by the kinetic energy gain experienced by a particle with velocity \ beta c along a defined straight path ( path integral of the longitudinal Lorentz forces ) divided by its charge,