The Velocity of the Moon The velocity of the Moon relative to the center of the Earth can be approximated by - v = (945m/s){-sin[(2.46 x 10-6 radians/s)t]} +cos[(2.46 x 10-radians/s)t]ŷ where t is measured in seconds. (The time required for the Moon to complete one orbit is 29.5 days.) 1 Part A To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t=0 and t = 0.100 days. Enter the x and y components of the average acceleration separated by comma. az, ay = ΜΕ ΑΣΦ Submit Request Answer ? m/s² Part B To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t = 0 and t = 0.0100days Enter the x and y components of the average acceleration separated by comma. az, dy = ΕΠΙ ΑΣΦ Submit Request Answer 0 ? m/s²
The Velocity of the Moon The velocity of the Moon relative to the center of the Earth can be approximated by - v = (945m/s){-sin[(2.46 x 10-6 radians/s)t]} +cos[(2.46 x 10-radians/s)t]ŷ where t is measured in seconds. (The time required for the Moon to complete one orbit is 29.5 days.) 1 Part A To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t=0 and t = 0.100 days. Enter the x and y components of the average acceleration separated by comma. az, ay = ΜΕ ΑΣΦ Submit Request Answer ? m/s² Part B To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t = 0 and t = 0.0100days Enter the x and y components of the average acceleration separated by comma. az, dy = ΕΠΙ ΑΣΦ Submit Request Answer 0 ? m/s²
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![The Velocity of the Moon The velocity of the Moon relative to the center
of the Earth can be approximated by
-
v = (945m/s){-sin[(2.46 x 10-6 radians/s)t]}
+cos[(2.46 x 10-radians/s)t]ŷ
where t is measured in seconds. (The time required for the Moon to
complete one orbit is 29.5 days.)
1
Part A
To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t=0 and t = 0.100 days.
Enter the x and y components of the average acceleration separated by comma.
az, ay =
ΜΕ ΑΣΦ
Submit
Request Answer
?
m/s²
Part B
To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t = 0 and t = 0.0100days
Enter the x and y components of the average acceleration separated by comma.
az, dy =
ΕΠΙ ΑΣΦ
Submit
Request Answer
0
?
m/s²](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5fce8b2e-6cad-4f71-929c-b2e0a063895d%2Fb7256789-0239-4546-83d4-7a492f0f3aa6%2Fp8p9872_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The Velocity of the Moon The velocity of the Moon relative to the center
of the Earth can be approximated by
-
v = (945m/s){-sin[(2.46 x 10-6 radians/s)t]}
+cos[(2.46 x 10-radians/s)t]ŷ
where t is measured in seconds. (The time required for the Moon to
complete one orbit is 29.5 days.)
1
Part A
To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t=0 and t = 0.100 days.
Enter the x and y components of the average acceleration separated by comma.
az, ay =
ΜΕ ΑΣΦ
Submit
Request Answer
?
m/s²
Part B
To approximate the instantaneous acceleration of the Moon at t = 0, calculate the x and y components of the average acceleration between the times t = 0 and t = 0.0100days
Enter the x and y components of the average acceleration separated by comma.
az, dy =
ΕΠΙ ΑΣΦ
Submit
Request Answer
0
?
m/s²
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