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Chemistry
Kinetic Energy gained by Target Nucleus in Chemistry Formulas
Kinetic Energy gained by Target Nucleus is the amount of kinetic energy that the target nucleus of mass M gains when collided with a particle of mass m. And is denoted by E
M
. Kinetic Energy gained by Target Nucleus is usually measured using the Megaelectron-Volt for Energy. Note that the value of Kinetic Energy gained by Target Nucleus is always negative.
Formulas to find Kinetic Energy gained by Target Nucleus in Chemistry
f
x
Determination of Amount of Energy Transferred to Target in Elastic Scattering
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List of variables in Chemistry formulas
f
x
Mass of Incident Particle
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f
x
Mass of Target Nucleus
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f
x
Angle between Initial and Final Path of Particle
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f
x
Kinetic Energy of Incident Particle
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FAQ
What is the Kinetic Energy gained by Target Nucleus?
Kinetic Energy gained by Target Nucleus is the amount of kinetic energy that the target nucleus of mass M gains when collided with a particle of mass m. Kinetic Energy gained by Target Nucleus is usually measured using the Megaelectron-Volt for Energy. Note that the value of Kinetic Energy gained by Target Nucleus is always negative.
Can the Kinetic Energy gained by Target Nucleus be negative?
Yes, the Kinetic Energy gained by Target Nucleus, measured in Energy can be negative.
What unit is used to measure Kinetic Energy gained by Target Nucleus?
Kinetic Energy gained by Target Nucleus is usually measured using the Megaelectron-Volt[MeV] for Energy. Joule[MeV], Kilojoule[MeV], Gigajoule[MeV] are the few other units in which Kinetic Energy gained by Target Nucleus can be measured.
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