An emergency relief plane is dropping a care package from a plane to a group of medical personnel working for a relief agency in an African village. The package is designed to land in a small lake, inflate an attached raft upon impact, and finally resurface with the raft side down. The plane will be moving horizontally with a ground speed of 59.1 m/s. The package will be dropped a horizontal distance of 521 m from the intended target location. At what altitude above the pond must the plane be flying in order to successfully accomplish this feat?
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Answer:
The altitude of the plane is 379.5 m.
Explanation:
Initial horizontal velocity, u = 59.1 m/s
Horizontal distance, d = 521 m
let the time taken by the packet to cover the distance is t.
Horizontal distance = horizontal velocity x time
521 = 59.1 x t
t = 8.8 s
let the vertical height is h .
Use second equation of motion in vertical direction.
Final answer:
The plane must be flying at an altitude of approximately 194.89 m above the pond.
Explanation:
To successfully drop the care package in the small lake, the plane must be flying at a certain altitude above the pond. We can use the horizontal distance and the ground speed of the plane to calculate the time it takes for the package to reach the target location. Then, using the time and the equation for free fall, we can find the altitude above the pond.
First, we calculate the time it takes for the package to reach the target location:
- Horizontal distance = 521 m
- Ground speed = 59.1 m/s
- Time = Horizontal distance / Ground speed = 521 m / 59.1 m/s = 8.81 s
Next, we use the equation for free fall to find the altitude above the pond:
- Acceleration due to gravity, g = 9.8 m/s^2 (assuming no air resistance)
- Time for free fall, t = 8.81 s
- Altitude above the pond = 0.5 * g * t^2 = 0.5 * 9.8 m/s^2 * (8.81 s)^2 = 194.89 m
Therefore, the plane must be flying at an altitude of approximately 194.89 m above the pond in order to successfully accomplish this feat.
Learn more about altitude above the pond here:
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The photon energy is 75 keV (kilo-electron volts) for polonium, assuming the free electron has no initial kinetic energy.
The maximum characteristic x-ray photon energy from the capture of a free electron into a K-shell vacancy is equal to the difference in binding energies between the K-shell and L-shell in the atom.
For polonium (Po), the atomic number is 84, which means it has 84 electrons. The K-shell of polonium is filled with 2 electrons, and the L-shell is filled with 8 electrons.
The K-shell binding energy for polonium can be found in a table of atomic data to be around 88 keV. The L-shell binding energy can also be found in the same table to be around 13 keV.
Therefore, the maximum characteristic x-ray photon energy from the capture of a free electron into a K-shell vacancy in polonium is:
E = (K-shell binding energy) - (L-shell binding energy)
= 88 keV - 13 keV
= 75 keV
To know more about binding energies refer here
brainly.com/question/30073915#
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