Please see image and try to understand thanks
A space probe measures the gravitational acceleration near the surface of a large asteroid. It begins...
Question 7 (2 points) A space probe measures the gravitational acceleration near the surface of a large asteroid. It begins by hovering 34.0 m above its surface. It then turns off its engines. If it takes the spacecraft 25 s to touch the surface what it the acceleration on this asteroid? Your Answer: Answer units
A small space probe of mass 180 kg is launched from a spacecraft near Mars. It travels toward the surface of Mars, where it will eventually land. At a time 22.6 seconds after it is launched, the probe is at location <4000, 8700, 0> m, and at this same instant its momentum is <50000, -7400, 0> kg·m/s. At this instant, the net force on the probe due to the gravitational pull of Mars plus the air resistance acting on the...
The Canadian Space Agency has decided to send an experimental probe to Mars. Its weight on earth is 40 kgf. When the probe is near the planet it will be attracted by the its gravitational field (gMars = 3.75 m/s^2). You are asked to provide the parachute's diameter so that the probe will touch Mars' surface with a velocity of 3 m/s (which is equivalent of dropping the probe from 0.5 m height on Earth). (A_chute = pi D^2/4, C_D...
A space probe is preparing to land of the surface of one of Jupiter’s moons to search for evidence of life. When the probe is 5800 m above the moon’s surface, it is moving downward at 230 m/s. At this moment, the probe fires its retrorockets and accelerates upward at 5.8 m/s2. When its speed decreases to 26 m/s, though, the retrorockets fail and the probe falls, impacting the surface 28 s later. Using a coordinate system with the origin...
(a) Imagine that a space probe could be fired as a projectile from the Earth's surface with an initial speed of 4.98 104 m/s relative to the Sun. What would its speed be when it is very far from the Earth (in m/s)? Ignore atmospheric friction, the effects of other planets, and the rotation of the Earth. (Consider the mass of the Sun in your calculations.) (b) What If? The speed provided in part (a) is very difficult to achieve...
need HELP ASAP (a) What is the escape speed on a spherical asteroid whose radius is 284 km and whose gravitational acceleration at the surface is 0.254 m/s2? (b) How far from the surface will a particle go if it leaves the asteroid's surface with a radial speed of 310 m/s? (c) With what speed will an object hit the asteroid if it is dropped from 1575 km above the surface? (a) Number Units (b) Number Units (c) Number Units
A probe has been launched vertically from the surface of Mars. At time t 0, it has reached a height of y1,0 320 m, and is moving upward at vy10 80 m/s when its engines cut out. At the same moment, the mother ship is y20 1500 m from the Martian surface, moving down directly toward the probe at 25 m/s and slowing down at the rate of 0.80 m/s2. On the surface of Mars, the gravitational acceleration is gMars-3.72...
A space probe is fired as a projectile from the Earth’s surface with an initial speed of 1.75*10^ 4 m/s . What will its speed be when it is very far from the Earth? Ignore atmospheric friction and the rotation of the Earth
A robotic spacecraft is flying in interstellar space on a straight line with a constant speed of 77.6 km/s. (See figure.) This speed is measured with respect to the space station the spacecraft was originally launched from. In interstellar space the gravitational pull from the stars is negligible, because the stars are extremely far. The spacecraft turns its main rocket engine on for a time period of 6.9 hours. The rocket engine provides a thrust of 936 N of force....
Problem 2.22 (Multistep) A small space probe of mass 160 kg is launched from a spacecraft near Mars. It travels toward the surface of Mars, where it will eventually land. At a time 22.7 seconds after it is launched, the probe is at location <4400, 7200, 0m, and at this same instant its momentum is <46000, -7600, 0> kg m/s. At this instant, thanat o on due to the gravitational pull of Mars plus the air resistance acting on the...