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A rocket, which is in deep space and initially at rest relative to an inertial reference...
A rocket that is in deep space and initially at rest relative to an inertial reference...
A rocket that is in deep space and initially at rest relative to an inertial reference frame has a mass of 2.80 105 kg, of which 1.92 105 kg is fuel. The rocket engine is then fired for 250 s while fuel is consumed at the rate of 480 kg/s. The speed of the exhaust product relative to the rocket is 3.21 km/s. (a) What is the rocket's thrust? N (b) What is the mass of the rocket after the...
Problem 1 A model rocket has engine with an average thrust of 6.92 N. The rocket...
Problem 1 A model rocket has engine with an average thrust of 6.92 N. The rocket mass is 72.5g,which includes fuel mass 22.3 g. The duration of fuel burning is 2.52 s a) What is the average exhaust speed v, of the engine? (12 points) b) What is the final speed i of this rocket if it were to be fired from International Space Station with initial speed v-7660 m/s? Assume the fuel burns at a constant rate (13 points)...
PLEASE SHOW YOUR WORK A model rocket engine has an average thrust of 5.26 N. It...
PLEASE SHOW YOUR WORK
A model rocket engine has an average thrust of 5.26 N. It has an initial mass of 25.4 g, which includes fuel mass of 12.5 g. The duration consumed.) of its burn is 1.90 s. (Assume all the fuel is (a) What is the average exhaust speed of the engine? m/s (b) This engine is placed in a rocket body of mass 44.5 spacewalk? Assume the fuel burns at a constant rate. g. What is the...
1.) You are in a spaceship at rest in deep space, outside the influence of any...
1.) You are in a spaceship at rest in deep space, outside the influence of any gravity. Without fuel, your vessel has a mass of 5,750 kg and its rocket engine expels exhaust at a speed of 8,250 m/s. You want to travel to an outpost that is quite far away, and you decide to accelerate to a speed of 12,500 m/s, coast for some time, and then slow down to a stop. A) What is the minimum mass of...
A rocket in deep space moving with velocity of 300 m/s has an initial mass of...
A rocket in deep space moving with velocity of 300 m/s has an initial mass of 5000 kg, of which 2000 kg are fuel. If it is ejecting gasses at a rate of 5 kg/s at a speed of 200 m/s relative to the rocket, then after 200 second of motion, its speed is
A fully fueled rocket has a mass of 21000 kg, of which 25000 kg is fuel....
A fully fueled rocket has a mass of 21000 kg, of which 25000 kg is fuel. The burned fuel is exhausted at a rate of 190 kg/s at a speed of 2800 m/s relative to the rocket. If the rocket is fired vertically upward, calculate.... a.) The trust of the rocket b.) The net force on the rocket at blastoff and just before burnout (when all the fuel has been used up) c.) The rocket's velocity at burnout *** Ignore...
A 585 kg spacecraft is mounted on top of a rocket with a mass of 19.2...
A 585 kg spacecraft is mounted on top of a rocket with a mass of 19.2 Mg, and has 18.5 Mg of fuel. Knowing that the fuel is consumed at a rate of 230 kg/s and ejected with a relative velocity of 3650 m/s, determine the maximum speed imparted to the spacecraft if the rocket is fired vertically from the ground.
Sketch the circle on your written homework and on your sketch show how the rocket must...
Sketch the circle on your written homework and on your sketch
show how the rocket must be oriented at each of the 4 labeled
points. The thrust vector (i.e. net force vector on the rocket) of
the rocket always points directy from the flames to the pointy-end.
At each point:
Clearly show which way the front end of the rocket points and
also clearly show which end of the rocket has the rocket
engine.
Indicate whether the engine is firing,...
SectionDef Additional Problems 59. A rocket is launched vertically from rest, and it bums fuel at...
SectionDef Additional Problems 59. A rocket is launched vertically from rest, and it bums fuel at a constant rate of 136 kg/s. Exhaust gases are expelled with a speed of 5 25 x 10 m/s relative to the rocket. What is the magnitude of the thrust? A) 7.14 x 10°N V=5.25x10mts B) 3.64 % 10N m = 136 kg/s C) 2.59 x 10-2N D) 808 N Thrust - ? E) 38.6 N Ans: A Difficulty: Medium SectionDef Additional Problems
39. Rocket Motion Suppose a small single-stage rocket of total mass m) is launched vertically, th...
I'd question 40 please.
39. Rocket Motion Suppose a small single-stage rocket of total mass m) is launched vertically, the positive direction is upward, the air resistance is linear, and the rocket consumes its fuel at a constant rate. In Problem 22 of Exercises 1.3 you were asked to use Newton's second law of motion in the form given in (17) of that exercise set to show that a mathematical model for the velocity v(t) of the rocket is given...
Problem 1 A model rocket has engine with an average thrust of 6.92 N. The rocket mass is 72.5g,which includes fuel mass 22.3 g. The duration of fuel burning is 2.52 s a) What is the average exhaust speed v, of the engine? (12 points) b) What is the final speed i of this rocket if it were to be fired from International Space Station with initial speed v-7660 m/s? Assume the fuel burns at a constant rate (13 points)...
PLEASE SHOW YOUR WORK
A model rocket engine has an average thrust of 5.26 N. It has an initial mass of 25.4 g, which includes fuel mass of 12.5 g. The duration consumed.) of its burn is 1.90 s. (Assume all the fuel is (a) What is the average exhaust speed of the engine? m/s (b) This engine is placed in a rocket body of mass 44.5 spacewalk? Assume the fuel burns at a constant rate. g. What is the...
1.) You are in a spaceship at rest in deep space, outside the influence of any gravity. Without fuel, your vessel has a mass of 5,750 kg and its rocket engine expels exhaust at a speed of 8,250 m/s. You want to travel to an outpost that is quite far away, and you decide to accelerate to a speed of 12,500 m/s, coast for some time, and then slow down to a stop. A) What is the minimum mass of...
Sketch the circle on your written homework and on your sketch
show how the rocket must be oriented at each of the 4 labeled
points. The thrust vector (i.e. net force vector on the rocket) of
the rocket always points directy from the flames to the pointy-end.
At each point:
Clearly show which way the front end of the rocket points and
also clearly show which end of the rocket has the rocket
engine.
Indicate whether the engine is firing,...
SectionDef Additional Problems 59. A rocket is launched vertically from rest, and it bums fuel at a constant rate of 136 kg/s. Exhaust gases are expelled with a speed of 5 25 x 10 m/s relative to the rocket. What is the magnitude of the thrust? A) 7.14 x 10°N V=5.25x10mts B) 3.64 % 10N m = 136 kg/s C) 2.59 x 10-2N D) 808 N Thrust - ? E) 38.6 N Ans: A Difficulty: Medium SectionDef Additional Problems
I'd question 40 please.
39. Rocket Motion Suppose a small single-stage rocket of total mass m) is launched vertically, the positive direction is upward, the air resistance is linear, and the rocket consumes its fuel at a constant rate. In Problem 22 of Exercises 1.3 you were asked to use Newton's second law of motion in the form given in (17) of that exercise set to show that a mathematical model for the velocity v(t) of the rocket is given...
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