The dominant alpha line from Uranium-238 has an energy of 4198 keV. What is the range in cm of a 4 MeV alpha particle in air?
The range of alpha particle in air is given by

Where,
is range of
alpha particle in air in cm
E is energy of alpha particle in MeV .
Given, E = 4 MeV
So, 
For any doubt please comment.
The dominant alpha line from Uranium-238 has an energy of 4198 keV. What is the range...
A U-238 atom (uranium-238) has a nucleus with 92 protons and an atomic mass of 238.0507882 u. What is the nuclear binding energy per nucleon in this atom? 1.93 MeV 7.57 MeV 12.3 MeV 19.6 MeV 1802 MeV A proton has a kinetic energy of 7.5 MeV. What is the speed of an alpha particle that has the same DeBroglie wavelength as the proton? The mass of the alpha particle is 6.65E-27 kg. 9517 m/s 9.53E6 m/s 1833 m/s 2.38E13...
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(1 point) A Uranium-238 nucleus (U-238) decays to a Thorium-234 (Th234) by emitting an alpha particle (i.e. a Helium-4 nucleus): 1,228 +Th%d4 + He A Uranium nucleus has 92 protons in it while a Helium nucleus has 2 protons. The mass of a Helium nucleus is 6.645 x 10-27 kg. For this problem assume that the Uranium nucleus is initially at rest and the Thorium nucleus remains at rest after the decay. If the alpha particle is initially at rest...
Can someone explain why the answer is A?
8) Uranium - 238 decays into thorium - 234 plus an alpha particle. How much energy is released in this process? 1 u = 931.491 MeV/c^2. The relevant mass values are: 4/2 He, 4.002603 u: 234 90 Th, 234.043583 u; 238 92 U, 238.050786 u. A) 4.28 MeV B) 3.76 MeV C) 3.18 MeV D) 2.89 MeV E) 5.05 MeV Answer: A
A uranium-238 atom can break up into a thorium-234 atom and a particle called an alpha particle, α-4. The numbers indicate the inertias of the atoms and the alpha particle in atomic mass units (1 amu = 1.66 × 10^−27 kg). When an uranium atom initially at rest breaks up, the thorium atom is observed to recoil with an x component of velocity of -2.6 × 10^5 m/s. How much of the uranium atom's internal energy is released in the...
2. What is the binding energy (in MeV) per nucleon for uranium-238? answer
A U-238 atom (uranium-238) has a nucleus with 92 protons and an atomic mass of 238.0507882 u. What is the nuclear binding energy per nucleon in this atom? a) 1.93 MeV b) 7.57 MeV c) 12.3 MeV d) 19.6 MeV e) 1802 MeV
AU-238 atom (uranium-238) has a nucleus with 92 protons and an atomic mass of 238.0507882 u. What is the nuclear binding energy per nucleon in this atom? 1.93 MeV O 7.57 MeV O 12.3 MeV O 19.6 MeV 1802 MeV
A uranium-238 atom can break up into a thorium-234atom and a particle called an alpha particle, α-4. The numbers indicate the inertias of the atoms and the alpha particle in atomic mass units (1 amu = 1.66 × 10−27 kg). When an uranium atom initially at rest breaks up, the thorium atom is observed to recoil with an x component of velocity of -2.1 × 105 m/s. How much of the uranium atom's internal energy is released in the breakup?...
Question 20 5 pts AU-238 atom (uranium-238) has a nucleus with 92 protons and an atomic mass of 238.0507882 u. What is the nuclear binding energy per nucleon in this atom? 1.93 MeV 7.57 MeV 12.3 MeV 19.6 MeV 1802 MeV