Because gravity always tried to pull objects towards the centre of the earth !
objects which can fall through the air without hitting anything or be affected by any other variables that may cause them to stop going in their set direction.
Faster.
The change in speed each second is the same whether the ball is going upward or downward
The velocity of a dropped and falling object goes on increasing due to acceleration due to gravity. It is given as v = gt So as t increases then velocity v also increases. Value of g is 9.8 m/s2
going faster than the speed of sound. It is a pressure wave of air that builds up in front of a plane, preventing it from going faster.
Because they are in Earth's gravity well. They would have to move much faster than you can throw them to keep going up instead of falling back down.
Depending were the human and the plane were at. if the human was on the ground and the plane in the air then the human, but lets say they are both 30,000 feet in the air. Both objects would begin to fall faster, then it gets to the point were they are going their "maximum" speed. But they weight between each objects will have an "impact" on who hits the ground first. The plane is obviously heavier than the person but gravity will come into play. There is a point were a falling object cannot go any faster. Most likely both objects will be falling at the same speed. So they could hit the ground at the same time.
objects which can fall through the air without hitting anything or be affected by any other variables that may cause them to stop going in their set direction.
going up
Economy going downward.
If the line slants upward (going towards the right), then the slope is positive.
The situation depends. If an asteroid is going in a circular orbit around the Sun, its speed will remain constant. If, on the other hand, it is falling directly towards the Sun, its speed will increase quite a lot - up to about 618 km/sec (the escape velocity of the Sun), assuming it comes from infinity.If, on the other hand, some object is in an elliptical orbit, it will get faster and faster while it approaches the Sun (or any other central body), but then it will have enough momentum to escape, and it will get slower and slower while it moves "upward" again.The situation depends. If an asteroid is going in a circular orbit around the Sun, its speed will remain constant. If, on the other hand, it is falling directly towards the Sun, its speed will increase quite a lot - up to about 618 km/sec (the escape velocity of the Sun), assuming it comes from infinity.If, on the other hand, some object is in an elliptical orbit, it will get faster and faster while it approaches the Sun (or any other central body), but then it will have enough momentum to escape, and it will get slower and slower while it moves "upward" again.The situation depends. If an asteroid is going in a circular orbit around the Sun, its speed will remain constant. If, on the other hand, it is falling directly towards the Sun, its speed will increase quite a lot - up to about 618 km/sec (the escape velocity of the Sun), assuming it comes from infinity.If, on the other hand, some object is in an elliptical orbit, it will get faster and faster while it approaches the Sun (or any other central body), but then it will have enough momentum to escape, and it will get slower and slower while it moves "upward" again.The situation depends. If an asteroid is going in a circular orbit around the Sun, its speed will remain constant. If, on the other hand, it is falling directly towards the Sun, its speed will increase quite a lot - up to about 618 km/sec (the escape velocity of the Sun), assuming it comes from infinity.If, on the other hand, some object is in an elliptical orbit, it will get faster and faster while it approaches the Sun (or any other central body), but then it will have enough momentum to escape, and it will get slower and slower while it moves "upward" again.
It isn't safe. It may protect you from small falling objects, but it's not going to help much against, say, a collapsing roof.
In Poptropica, you cannot "jump" upward from a rope. Instead, push sideways so that your character steps off the rope directly to the side. If you fall when you do this, try going in the other direction.
the falling action of Maya Angelou is she cep going on shows.
no
/1s going upward the others going strait ways.=D