The jet velocities and mass ratio of 4 stage rocket is given as, Stage Jet Velocity (m/s) Mass ratio 1 2000 2 2200 8 1800 12 4 2800 8 Find the total velocity increment in (km/s) of the rocket?
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- Bryce, a mouse lover, keeps his four pet mice in a roomy cage, where they spend much of their spare time, when they're not sleeping or eating, joyfully scampering about on the cage's floor. Bryce tracks his mice's health diligently and just now recorded their masses as 0.0133 kg, 0.0223 kg, 0.0245 kg, and 0.0227 kg. At this very instant, the x- and y-components of the mice's velocities are, respectively, (0.637 m/s, –0.173 m/s), (–0.595 m/s, –0.435 m/s), (0.917 m/s, 0.933 m/s), and (-0.725 m/s, 0.787 m/s). Calculate the x- and y-components of Bryce's mice's total momentum, px and py. Px = kg-m/s Py = kg-m/s & TOOLS x10A proton (p) of mass 1.93-u(unified atomic mass units) traveling with a speed 2.22 x 104 m/s of has an elastic head-on collision with a helium (He) nucleus (mHe = 4.00 u) initially at rest. What is the velocity of helium nucleus after the collision?(As mentioned in Chapter 1, 1 u = 1.66 x 10–27 kg but we won’t need this fact.) Assume the collision takes place in nearly empty space.A radioactive nucleus initially at rest decays by emitting an electron and a neutrino at right angles to one another.The momentum of the electron is 1.2×10^-22kgm/s and that of the neutrino is 6.4×10^-22kgm/s find the direction and magnitude of the recoil nucleus.If it's mass is 5.8×10^-26kg,deduce the kinetic energy of recoil.
- Part B (make sure to account for the rest of the energy of the rocket) & C please.2.2.1) If in the above collision the masses of the particles are m1 = m and m2= 4m and u1/u2 = 3. Show that the opening anglebetween the paths of the m1 and m2 is 120⁰ 2.2.2) If the mass m1 has incident kinetic energy E find the energies of the emerging particles m1 and m2 in terms of E.A spaceship of mass 800,000 kg at a distance of 50,000 km above Earth's surface is accelerating away from Earth at 7.5 m/s^2. If it ion engines expel a plasma gas at a speed of 2000 km/s, at what rate must it consume fuel to achieve this acceleration?
- How much fuel (in kg) would be needed for a 1,200-kg rocket (its mass with no fuel) to take off from Earth and reach 1,800 m/s in 20s? The exhaust speed is 1,000 m/s. 5630 7630 3630 4630Ernest Rutherford (the first New Zealander to be awarded the Nobel Prize in Chemistry) demonstrated that nuclei were very small and dense by scattering helium-4 nuclei 197 -27 (*He) from gold-197 nuclei (19 Au). The energy of the incoming helium nucleus was 7.58 x 10-13 ), and the masses of the helium and gold nuclei were 6.68 x 10 kg and 3.29 х 10 -25 kg, respectively (note that their mass ratio is 4 to 197). (Assume that the helium nucleus travels in the +x direction before the collision.) (a) If a helium nucleus scatters to an angle of 150° during an elastic collision with a gold nucleus, calculate the helium nucleus' final speed (in m/s) and the final velocity (magnitude in m/s and direction counterclockwise from the +x-axis) of the gold nucleus. 4Нe speed m/s 197 Au velocity m/s 197 Au direction ° counterclockwise from the +x-axis (b) What is the final kinetic energy (in J) of the helium nucleus?Suppose two particles are traveling along the space curves r1(t)=< t2,, 8t-16, t2 > and r1(t)=< 3t+4, t2, 5t-4, >. A collision will occur when the two particles arrive at the same point at the same time. Find any time(s) and location(s) when and where the particles collide
- 4. A rocket accelerates by burning its onboard fuel, so that its mass decreases with time.Suppose that the initial mass of the rocket at liftoff (including its fuel) is m, the fuel isconsumed at rate r, and the exhaust gases are ejected with constant velocity ν (relativeto the rocket). A model for the velocity of the rocket at time t is given by the equationv(t) = −ν ln(1 −Rt) −gt,where g is the acceleration due to gravity, R = r/m, and t is not too large.(a) Find an expression for the acceleration, a(t) = v′(t), of the rocket at any time t.(b) Find an expression for the position of the height, h(t), of the rocket at any timet. You can assume that at t = 0, the rocket hasn’t left the ground. Hint: re-member that ν,R,g are all constants and t is the independent variable.Write out your steps carefully!(c) Let g = 9.8 m/s2, R = 0.005 s−1. What does the velocity of the exhaust gases,ν, need to be for the rocket to reach a height of 6000 m one minute after liftoff?You can round to the…A cannon of mass M fires a projectile of mass m. The energy liberated in firing is E. Assume the projectile is discharged horizontally and that the cannon is mounted on wheels of a negligible mass. Using the fact that the energy E is taken up by both cannon and projectile and that momentum is conserved in the firing, do the following: A) Find the velocity of the projectile in terms of the masses and the energy E. B) By writing the velocity of the recoiling cannon in terms of the velocity of the projectile, find a relationship between the energy liberated, E, and the energy of the projectile. C) Explain what happens as M gets very large compared to m.I need help with #1