Mass of a Moving Particle The mass m of a particle moving at a velocity v is related to its rest mass m, by the equation mo v2 1 c2 m = -31 kg is being accelerated in a where c (2.98 x 108 m/s) is the speed of light. Suppose an electron of rest mass 9.11 x 10¬ particle accelerator. When its velocity is 2.87 × 108 m/s and its acceleration is 2.45 x 105 m/s2, how fast is the mass of the electron changing? (Enter your answer in scientific notation rounded to three significant figures.) X x 10 X kg/s

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Mass of a Moving Particle

The mass m of a particle moving at a velocity v is related to its rest mass m0 by the equation
m = 
m0
  1 − 
v2
c2
where c
(2.98 ✕ 108 m/s)
is the speed of light. Suppose an electron of rest mass
9.11 ✕ 10−31 kg
is being accelerated in a particle accelerator. When its velocity is
2.87 ✕ 108 m/s
and its acceleration is
2.45 ✕ 105 m/s2,
how fast is the mass of the electron changing? (Enter your answer in scientific notation rounded to three significant figures.)
✕ 10kg/s
Mass of a Moving Particle The mass m of a particle moving at a velocity v is related to its rest mass m, by the equation
mo
v2
1
c2
m =
-31
kg is being accelerated in a
where c (2.98 x 108 m/s) is the speed of light. Suppose an electron of rest mass 9.11 x 10¬
particle accelerator. When its velocity is 2.87 × 108 m/s and its acceleration is 2.45 x 105 m/s2, how fast is the mass of the
electron changing? (Enter your answer in scientific notation rounded to three significant figures.)
X x 10
X kg/s
Transcribed Image Text:Mass of a Moving Particle The mass m of a particle moving at a velocity v is related to its rest mass m, by the equation mo v2 1 c2 m = -31 kg is being accelerated in a where c (2.98 x 108 m/s) is the speed of light. Suppose an electron of rest mass 9.11 x 10¬ particle accelerator. When its velocity is 2.87 × 108 m/s and its acceleration is 2.45 x 105 m/s2, how fast is the mass of the electron changing? (Enter your answer in scientific notation rounded to three significant figures.) X x 10 X kg/s
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