No. There is less gravity on the moon, therefore the rocket would feel less of a pull towards it than the earth. It would be easier to leave the moon than the earth.
If you send a bottle rocket 15 kilometers into the atmosphere, it would be in the stratosphere. The stratosphere extends from about 10 to 50 kilometers above the Earth's surface, lying above the troposphere, which is where most weather occurs. At 15 kilometers, the rocket would be well within this layer, where the temperature generally increases with altitude.
Launching a golf tee into orbit from 100,000 feet would require a small rocket, potentially a sounding rocket or a suborbital rocket. These rockets are typically between 20-70 feet in length and range in weight from a few hundred to several thousand pounds. The specific size of the rocket would depend on factors such as payload weight, desired trajectory, and propulsion system.
To reach the moon, you would typically need to launch a spacecraft using a powerful rocket. The spacecraft would travel through space for about three days before entering the moon's orbit and landing on its surface. The spacecraft would then need to take off again and return to Earth.
The space shuttle is not capable of leaving low earth orbit, a rocket like what the Apollo missions used (although much bigger) would be required.
If you send a bottle rocket 15 kilometers up into the air, it would be in the stratosphere. The stratosphere extends from about 10 to 50 kilometers above the Earth's surface, lying above the troposphere where most weather occurs. At 15 kilometers, the rocket would be well within this layer, where the air is generally more stable and temperature increases with altitude.
When 100 weeks have passed since you started the game with the New Game option.
a flat surface would have air resistance and a cone doesn't
Leaving the shipyards after 120 days.
If there is any. On Earth the rocket will become hot from air resistance and slow down, but in space, without air or friction, the rocket would keep moving the same direction forever or until it hits something or is affected by gravity.
If you send a bottle rocket 15 kilometers into the atmosphere, it would be in the stratosphere. The stratosphere extends from about 10 to 50 kilometers above the Earth's surface, lying above the troposphere, which is where most weather occurs. At 15 kilometers, the rocket would be well within this layer, where the temperature generally increases with altitude.
A fin on a rocket is a flat surface projecting from the body that helps stabilize the rocket's flight by providing aerodynamic forces to keep it on a desired trajectory. Fins increase stability by creating drag and preventing the rocket from spinning or veering off course during ascent.
Apollo took on average 2.9 days from leaving Earth orbit to injection into Lunar orbit, and basically the same on return.
Launching a golf tee into orbit from 100,000 feet would require a small rocket, potentially a sounding rocket or a suborbital rocket. These rockets are typically between 20-70 feet in length and range in weight from a few hundred to several thousand pounds. The specific size of the rocket would depend on factors such as payload weight, desired trajectory, and propulsion system.
To reach the moon, you would typically need to launch a spacecraft using a powerful rocket. The spacecraft would travel through space for about three days before entering the moon's orbit and landing on its surface. The spacecraft would then need to take off again and return to Earth.
The space shuttle is not capable of leaving low earth orbit, a rocket like what the Apollo missions used (although much bigger) would be required.
If you send a bottle rocket 15 kilometers up into the air, it would be in the stratosphere. The stratosphere extends from about 10 to 50 kilometers above the Earth's surface, lying above the troposphere where most weather occurs. At 15 kilometers, the rocket would be well within this layer, where the air is generally more stable and temperature increases with altitude.
If the rocket from earth looped into the Mars gravitational pull it should be pulled into a orbital path around the planet. But as on earth it would eventually slow down and be attracted to the surface of Mars were it would crash