When we estimate distances from velocity data, it is sometimes necessary to use times to, t1, t2, t3, . . . that are not equally spaced. We can still estimate distances using the time periods At¡ = t; – tj – 1. For example, a space shuttle was launched on a mission, the purpose of which was to install a new motor in a satellite. The table provided gives the velocity data for the shuttle between liftoff and the jettisoning of the solid rocket boosters. Use these data to estimate the height, h, above Earth's surface of the space shuttle, 62 seconds after liftoff. (Give the upper approximation available from the data.) h = ft Event Time (s) Velocity (ft/s) Launch Begin roll maneuver 10 180 End roll maneuver 15 319 Throttle to 89% 20 442 Throttle to 67% 32 742 Throttle to 104% 59 1325 Maximum dynamic pressure 62 1453 Solid rocket booster separation 125 4151

When we estimate distances from velocity data, it is sometimes necessary to use times to, t1, t2, t3, . . . that are not equally spaced. We can still estimate distances using the time periods At¡ = t; – tj – 1. For example, a space shuttle was launched on a mission, the purpose of which was to install a new motor in a satellite. The table provided gives the velocity data for the shuttle between liftoff and the jettisoning of the solid rocket boosters. Use these data to estimate the height, h, above Earth's surface of the space shuttle, 62 seconds after liftoff. (Give the upper approximation available from the data.) h = ft Event Time (s) Velocity (ft/s) Launch Begin roll maneuver 10 180 End roll maneuver 15 319 Throttle to 89% 20 442 Throttle to 67% 32 742 Throttle to 104% 59 1325 Maximum dynamic pressure 62 1453 Solid rocket booster separation 125 4151

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Description: When we estimate distances from velocity data, it is sometimes necessary to use times to, t1, t2, t3, . . . that are not equally spaced. We can still estimate distances using the timeperiods At; = t; – t; – 1. For example, a space shuttle was launch

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter3: Two-dimensional Kinematics

Section: Chapter Questions

Problem 64PE: (a) Use the distance and velocity data in Figure 3.64 to find the rate of expansion as a function of...

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