A) in minutes B) in launched pairs C) in rad/s All of the questions on this exam concern a space station, consisting of a long thin uniform rod of mass identical uniform hollow spheres, each o...
These questions concern a space station, consisting of a long thin uniform rod of mass 4.3 x 10^6 kg and length 769 meters, with two identical uniform hollow spheres, each of mass 1.7 x 10^6 kg and radius 218 meters, attached at the ends of the rod, as shown below. Please note that none of the diagrams shown is drawn to scale. A. Suppose that the station starts out at rest (not rotating). What we want is to get it...
PLEASE SHOW WORK AND ANSWER ALL PARTS. WHEN I ASKED THE SECTIONS SEPARATELY THE ANSWERS DID NOT MATCH, THANK YOU!!! All of the questions on this concern a space station, consisting of a long thin uniform rod of mass 4.4 x 106kg and length 171 meters, with two identical uniform hollow spheres, each of mass 1.3 x 106 kg and radius 57 meters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown...
Mass of station is 3.8X106 Suppose once again that the space station begins at rest, not rotating. This time, instead of using rocket engines attached to the spherical end modules, we will have small probes periodically launched from two points on the rod-shaped part of the station as shown. The probes will launch in pairs in opposite directions, each individual probe of identical mass 1287 kg and launched at a speed of 15900 m/s with respect to the space station....
All of the questions on this concern a space station, consisting of a long thin uniform rod of mass 4.4 x 106kg and length 171 meters, with two identical uniform hollow spheres, each of mass 1.3 x 106 kg and radius 57 meters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown is drawn to scale! PART D: (d) Let's start again with the station not rotating, and back to its original...
Mass of station is 3.8X106 Suppose once again that the space station begins at rest, not rotating. This time, instead of using rocket engines attached to the spherical end modules, we will have small probes periodically launched from two points on the rod-shaped part of the station as shown. The probes will launch in pairs in opposite directions, each individual probe of identical mass 1287 kg and launched at a speed of 15900 m/s with respect to the space station....
please write clearly and and label ever answer All of the questions on this exam concern a space station, consisting of a long thin uniform rod of mass B. 니 x 106 kg and length C. D 3 meters, with two identical uniform hollow spheres, each of mass D. 2+2 x 10kg and radius Emeters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown is drawn to scale! axis (a) Suppose that...
All of t rod of mass B. 2a _x10 kg and length C. 5meters, with two identical uniform hollow spheres, each of mass D. 232x 10 kg a E_ meters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown is drawn to scale! he questions on this exam concern a space station, consisting of a long thin uniform nd radius axis axis (e) Now, another feature of this station is that the...
Consider a non-rotating space station in the shape of a long thin uniform rod of mass 6.65 x 10^6 kg and length 574 meters. Rocket motors on both ends of the rod are ignited, applying a constant force of F = 9.48 x 10^5 N to each end of the rod as shown in the diagram, causing the station to rotate about its center. If the motors are left running for 2 minutes and 21 seconds before 3.94 rpm 9.84...
Let's start again with the station not rotating, and back to its original size, with the rod again at 979 meters long. This time, we would like to get the station rotating at a rate of 0.09 rad/s, but now about an axis that passes straight down the length of the rod. We will accomplish this by placing a pair of rocket engines as shown, each again with a thrust of 3.9x10^6 N, on one of the spherical end modules....
Let’s start again with the station not rotating, and back to its original size, with the rod again at 915 meters long. This time, we would like to get the station rotating at a rate of 0.09 rad/s, but now about an axis that passes straight down the length of the rod. We will accomplish this by placing a pair of rocket engines as shown, each again with a thrust of 2.8X10-6 N, on one of the spherical end modules....