Solution:
Given that
1) A particle has a 4-momentum of [2266, 1813, -1133, 453] kg-m-s with respect to the...
A 5.71 kg particle-like object moves in a plane with velocity components vx = 16.9 m/s and vy = 51.5 m/s as it passes through the point with (x, y) coordinates of (9.95, -7.85) m. Just then, in unit-vector notation, what is its angular momentum relative to (a) the origin and (b) the point (-6.87, -6.87) m?
1) A particle has a rest mass of 6.95×10−27 kg and a momentum of 5.15×10−18 kg⋅m/s. Determine the total relativistic energy of the particle.E= JJ Find the ratio of the particle's relativistic kinetic energy to its rest energy. ??rest= 2) Estimate the difference Δtdiff in a 15000-s time interval as measured by a proper observer and a relative observer traveling on a commercial jetliner. Δ?diff= s 3) Suppose that you have found a way to convert the rest energy of...
A particle has a rest mass of 6.95×10^-27 and a momentum of 4.73×10^−18 kg⋅m/s. Determine the total relativistic energy of the particle. E = ______________ J Find the ratio of the particle's relativistic kinetic energy to its rest energy. ?? rest = _________________
Consider a system consisting of three particles: m1 = 5 kg, v1 = <11, -8, 12>m/s m2 = 2 kg, v2 = < -13, 4, -5 > m/s m3 = 2 kg, v2 = < -22, 38, 20 > m/s (a) What is the total momentum of this system? (b) What is the velocity of the center of mass of this system? (c) What is the total kinetic energy of this system? (d) What is the translational kinetic energy of this system? (e) What is the kinetic energy...
Ann measures the (relativistic) momentum of a tiny particle to be 3.2x 103 kg mIs. The mass of the particle is 8 x 10-3g. and it is moving in the -x-direction. SP6 a. Find the total energy of the particle according to Ann b. Find the difference of the particle's total energy and its rest energy, and compare it to the kinetie energy of the particle calculated non-relativistically. Write the components of the momentum 4-vector of the particle according to...
momentum of 20.2 kg m/s. I. A particle with kinetic energy equal to 293 J has a m a. What is the mass of the particle? Ans b. Find the speed of the particle in m/s. Ans.
An atom of beryllium (m 8.00 u) splits into two atoms of helium (m-4.00 u) with the release of 92.2 keV of energy. Suppose the beryllium atom moves in the positive x direction and has kinetic energy 59.9 keV. One helium atom is found to move at an angle of 31° with respect to the x axis. Find the direction of motion of the second helium atom and find the velocity of each helium atom Work this problem in the...
1. A 30.00 kg mass moving with the velocity of 10 m/s. The momentum of the body will be A. 144.2 kg m/s. B. 187.8 kg m/s. C. 320.0 kg m/s. D. 442.4 kg m/s. E. None of the above 2. Out of the following which one is not a vector quantity? A. Force B. Impulse C. Mass D. velocity 3. Impulse is the product of which two quantities? A. Mass and Time B. Mass and Momentum C. Force and...
A 3.0 gg particle has momentum 5.0×105 kg⋅m/skg⋅m/s What is the particle's speed?
A particle of mass 1.67Ý10-27 kg moves with a speed of 2.6Ý108 m/s relative to an observer. What is the kinetic energy of the particle in the rest frame of the observer?