An unsuspecting bird is coasting along in an easterly direction at 4.00mph when a strong wind from the south imparts a constant acceleration of .200m/s2. If the acceleration from the wind lasts for 2.70s, find the magnitude r and direction theta of the birds displacement during this time period
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An unsuspecting bird is coasting along in an easterly direction at 4.00mph when a strong wind...
An unsuspecting bird is coasting along in an easterly direction at 1.00 mph when a strong wind from the south imparts a constant acceleration of 0.300 m/s2. If the wind\'s acceleration lasts for 3.40 s, find the magnitude r and direction θ (measured counterclockwise from the easterly direction) of the bird\'s displacement over this time interval. (HINT: assume the bird is originally travelling in the x direction and there are 1609 m in 1 mile.) An unsuspecting bird is coasting...
An unsuspecting bird is coasting along in an easterly direction at 1.00 mph when a strong wind from the south imparts a constant acceleration of 0.300 m/s^2. If the acceleration from the wind lasts for 2.30 s, find the magnitude, r, and direction, theta, of the bird's displacement during this time period. r = Number m theta = Number degree Now, assume the same bird is moving along again at 1.00 mph in an easterly direction but this time the...
An unsuspecting bird coasting along in an easterly direction at 1.00 mph when a strong wind from the south impartsa constant acceleration of 0.200 m/s2. If the acceleration from the wind lasts 2.30 s, find the magnitude, r, and a direction, of the bird's displacement during this time period. (HINT: assume the bird is originally travelling in the +x direction and there are 1609 m in 1 mile.) r = ? Direction = ? Now assume the bird is moving...
An unsuspecting bird is coasting along in an easterly direction at 1.00 mph when a strong wind from the south imparts a constant acceleration of 0.300 m/s2. If the wind's acceleration lasts for 3.20 s, find the magnitude r and direction e (measured counterclockwise from the easterly direction) of the bird's displacement over this time interval. (HINT: assume the bird is originally travelling in the +x direction and there are 1609 m in 1 mile.) Number m Number Now, assume...
An unsuspecting bird is coasting along in an easterly direction at 3.00 mph when a strong wind from the south imparts a constant acceleration of 0.400 m/s2. If the wind\'s acceleration lasts for 2.90 s, find the magnitude r and direction θ (measured counterclockwise from the easterly direction) of the bird\'s displacement over this time interval. (HINT: assume the bird is originally travelling in the x direction and there are 1609 m in 1 mile.) Now, assume the same bird...
An unsuspecting bird is coasting along in an easterly direction at 2.00 mph when a strong wind from the Map south imparts a constant acceleration of 0.400 m/s2. If the wind's acceleration lasts for 3.40 s, find the magnitude rand direction 0 (measured counterclockwise from the easterly direction) of the bird's displacement over this time interval. (HINT: assume the bird is originally travelling in the +x direction and there are 1609 m in 1 mile.) Number m Number C Now,...
Resources Give Up? Feedback Resume 7100 Question 1 of 12 > Attempt 3 0/100 An unsuspecting bird is coasting along in an easterly direction at 3.00 mph when a strong wind from the south imparts a constant acceleration of 0.500 m/s. If the wind's acceleration lasts for 2.90 s, find the magnitude r and direction 8 (measured counterclockwise from the easterly direction) of the bird's displacement over this time interval. Assume that the bird is originally travelling in the +x...
A hockey puck glides across the ice at 27.7 m/s, when a player whacks it with her hockey stick, giving it an acceleration of 448 m/s2 at 75.0 ∘ to its original direction. If the acceleration lasts 41.3 ms, what's the magnitude of the puck's displacement during this time?
ints: 20 5) The horizontal coordinates of a FrisbeeM in a strong wind are given by 142 and y 10r-32, where r and y are in meters, and t is in seconds. (a) What is the acceleration of the Frisbee? Give from the positive x direction. (b) What is the magnitude of the velocity at 2.0 s, accurate to the nearest m/s? (c) Is there any instant(s) after the particle started moving (t > 0) where it could be at...
Birds have evolved to the ability to control their motions through the air by controlling the forces exerted on their bodies by the air; the contact forces on a bird by the air plus the force of gravity on the bird by the Earth determine the change in motion of the bird at any instant of time. In this problem, you will be asked to use what you know about acceleration to track the motion of a diving hawk. A...