College Physics
OER 2016 Edition
ISBN: 9781947172173
Author: OpenStax
Publisher: OpenStax College
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Chapter 8, Problem 56PE
Professional Application
Ion-propulsion rockets have been proposed for use in space. They employ atomic ionization techniques and nuclear energy sources to produce extremely high exhaust velocities, perhaps as great as
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(COLLAB) A new design of Saturn 16 rocket with mass 1.7 x10° kg has a propulsion engine that can eject gases at a constant speed of 384.28 m/s
(vGas) by burning fuel at a rate of 2.99 x10
If this design exceeds the velocity of 11,200 m/s it can successfully escape Earth's gravity. Determine if this is so. Find its maximum velocity (velyZ) in a
PhysLab virtual simulation. (Pitch Angle = 0)
kg/s (dmdT). In full tank, the rocket can carry a fuel of mass 47.32 x10 ° kg.
(COLLAB) A new design of Saturn 10 rocket with mass 1.36 x10° kg has a propulsion engine that can eject gases at a
constant speed of 324.31 m/s (vGas) by burning fuel at a rate of 3.23 x10
fuel of mass 41.42 x10 ° kg.
If this design exceeds the velocity of 11,200 m/s it can can successfully escape Earth's gravity. Determine if this is so. Find
its maximum velocity (velyZ). (Pitch Anglat = 0)
kg/s (dmdT). In full tank, the rocket can carry a
Ion-propulsion rockets have been proposed for use in space. They employ atomic ionization techniques and nuclear energy sources to
produce extremely high exhaust velocities, perhaps as great as 8.00 × 106 m/s. These techniques allows a much more favorable
payload-to-fuel ratio. To illustrate this fact:
(a) Calculate the increase in velocity in m/s of a 20,000-kg space probe that expels only 35.0-kg of its mass at the given exhaust
velocity.
m/s
(b) These engines are usually designed to produce a very small thrust for a very long time-the type of engine that might be useful
on a trip to the outer planets, for example. Calculate the acceleration in m/s² of such an engine if it expels 4.50 x 10-6 kg/s at
the given velocity, assuming the acceleration due to gravity is negligible.
m/s²
Chapter 8 Solutions
College Physics
Ch. 8 - An object that has a small mass and an object that...Ch. 8 - An object that has a small mass and an object that...Ch. 8 - Professional Application Football coaches advise...Ch. 8 - How can a small force impart the same momentum to...Ch. 8 - Professional Application Explain in terms of...Ch. 8 - While jumping on a trampoline, sometimes you land...Ch. 8 - Professional Application Tennis racquets have...Ch. 8 - Professional Application If you dive into water,...Ch. 8 - Under what circumstances is momentum conserved?Ch. 8 - Can momentum be conserved for a system if there...
Ch. 8 - Momentum for a system can be conserved in one...Ch. 8 - Professional Application Explain in terms of...Ch. 8 - Can objects in a system have momentum while the...Ch. 8 - Must the total energy of a system be conserved...Ch. 8 - What is an elastic collision?Ch. 8 - What is an inelastic collision? 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