abdooooo!!!
Banned
1. Calculate the average acceleration required by the shuttle to achieve an orbital velocity of 7756 m.s-1, assuming that the rocket engines are running for 8.5 minutes. Express your answer in m.s-1 and as a multiple of g in the Earth's gravitational acceleration.
2. For the same shuttle launch in question 1, calculate:
a. The net force that must be exerted on an 80kg astronaut in the shuttle to achieve the same acceleration.
b. The apparent weight of the astronaut (or the force exerted by the shuttle seat on the astronaut). Express your answer in newtons and as a multiple of the astronaut's weight on Earth.
3. Calculate the velocity of a point P, on the surface of the Earth, near the equator, relative to the centre of the Earth. On a diagram indicate the direction of this velocity, given that the view of the Earth is form above the North Pole.
4. Calculate the orbital velocity of the Earth relative to the Sun.
5. The escape velocity for the Solar system from a point in the Earth's orbit is 42 kms-1. Use this information and the value for the orbital velocity of the Earth calculated in Q4, to identify the best time and position on Earth for the launch of an interplanetary probe that must leave the solar system. Mark this position on a diagram and then explain your choice.
please include working, thanks
2. For the same shuttle launch in question 1, calculate:
a. The net force that must be exerted on an 80kg astronaut in the shuttle to achieve the same acceleration.
b. The apparent weight of the astronaut (or the force exerted by the shuttle seat on the astronaut). Express your answer in newtons and as a multiple of the astronaut's weight on Earth.
3. Calculate the velocity of a point P, on the surface of the Earth, near the equator, relative to the centre of the Earth. On a diagram indicate the direction of this velocity, given that the view of the Earth is form above the North Pole.
4. Calculate the orbital velocity of the Earth relative to the Sun.
5. The escape velocity for the Solar system from a point in the Earth's orbit is 42 kms-1. Use this information and the value for the orbital velocity of the Earth calculated in Q4, to identify the best time and position on Earth for the launch of an interplanetary probe that must leave the solar system. Mark this position on a diagram and then explain your choice.
please include working, thanks