The space shuttle program involved 135 manned space flights in 30 yr . In addition to supplying and transporting astronauts to the International Space Station, space shuttle missions serviced the Hubble Space Telescope and deployed satellites. For a particular mission, a space shuttle orbited the Earth in 1.5 hr . at an altitude of 200 mi . a. Determine the angular speed (in radians per hour) of the shuttle. b. Determine the linear speed of the shuttle in miles per hour. Assume that the Earth's radius is 3960 mi . Round to the nearest hundred miles per hour
The space shuttle program involved 135 manned space flights in 30 yr . In addition to supplying and transporting astronauts to the International Space Station, space shuttle missions serviced the Hubble Space Telescope and deployed satellites. For a particular mission, a space shuttle orbited the Earth in 1.5 hr . at an altitude of 200 mi . a. Determine the angular speed (in radians per hour) of the shuttle. b. Determine the linear speed of the shuttle in miles per hour. Assume that the Earth's radius is 3960 mi . Round to the nearest hundred miles per hour
Solution Summary: The author calculates the angular speed of the space shuttle orbiting the Earth at an attitude of 200mi.
The space shuttle program involved
135
manned space flights in
30
yr
. In addition to supplying and transporting astronauts to the International Space Station, space shuttle missions serviced the Hubble Space Telescope and deployed satellites. For a particular mission, a space shuttle orbited the Earth in
1.5
hr
. at an altitude of
200
mi
.
a. Determine the angular speed (in radians per hour) of the shuttle.
b. Determine the linear speed of the shuttle in miles per hour. Assume that the Earth's radius is
3960
mi
. Round to the nearest hundred miles per hour
Trolley of the overhead crane moves along the bridge rail. The trolley position is
measured from the center of the bridge rail (x = 0) is given by x(t) = 0.5t^3-6t^2+19.5t-14 : 0 <= t <= 3 min. The
trolley moves from point A to B in the forward direction, B to C in the reverse direction and C to D again in the
forward direction.
CONTROL PANEL
END TRUCK-
RUNWAY BEAM-
BRIDGE RAIL
HOIST
-TROLLEY
TROLLEY BUMPER
TROLLEY DRIVE
LPENDANT TRACK
-TROLLEY CONDUCTOR
TRACK
WIRE ROPE
-HOOK BLOCK
-BRIDGE DRIVE
-END TRUCK BUMPER
-RUNWAY RAIL
TROLLEY END STOP
-CONDUCTOR BAR
PENDANT FESTOONING
TROLLEY FESTOONING
PENDANT CABLE
PENDANT
x(t)=0.5t^3-6t^2+19.5t-14
v(t)=1.5t^2-12t+19.5
a(t)=(dv(t))/dt=3t-12
Fig. T2.2: The overhead crane
Total masses of the trolley, hook block, and the load attached to the hook block are 110 kg, 20
kg, and 150 kg. Damping coefficient, D, is 40 kg/s.
What is the total amount of energy required from the trolley motor to move the system
[Hint: Use Newton's 2nd law to obtain the…
CONTROL PANEL-
BRIDGE RAIL
HOIST
-TROLLEY
TROLLEY BUMPER
-BRIDGE DRIVE
END TRUCK-
RUNWAY BEAM-
END TRUCK BUMPER
-RUNWAY RAIL
TROLLEY DRIVE
TROLLEY END STOP
-CONDUCTOR BAR
LPENDANT TRACK
TROLLEY CONDUCTOR
TRACK
-WIRE ROPE
PENDANT FESTOONING
TROLLEY FESTOONING
-PENDANT CABLE
-HOOK BLOCK
PENDANT
College Algebra with Modeling & Visualization (5th Edition)
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