The terms "horizontal" and "vertical" presume a fixed frame of reference, which does not exist in space. So the answer would be "Neither, and both".
If gravity did not affect a horizontally thrown ball, it would travel in a straight line horizontally at a constant velocity. Gravity only acts vertically, causing the ball to fall towards the ground, so without this vertical force, the horizontal motion would remain unaffected.
sound most likely can't travel through the universe if it does have an atmosphere,but it actually can travel around in other parts and other spaces around the universe>>>>>!
if the bal is thrown by making 45 degree angles. with the ground..it will travel maximum distance...
They propagate spherically outwards from their point of origin, except in unusually cases, such as the laser, when the light is contained within a column and disperses very gradually.
No, unless both are zero. No work is done in a horizontal motion. mGh is work in a vertical direction.
Yes, heat can travel in any direction, including up and down. Heat transfer occurs through conduction, convection, and radiation, allowing heat to move vertically as well as horizontally. For example, in a room, warm air rises due to convection, while heat can also be conducted through materials in any direction.
Oarfish are typically found solitary or in small groups. They are deep-sea dwellers that often migrate vertically in the water column rather than horizontally in groups.
Not really, since "space" is just one part of the universe.
to a certain degree yes but it may probably go into stall. A glide is when an aircraft or object travels horizontally while dropping vertically. If it doesn't glide, then it drops vertically---i.e. a rock. If it can travel horizontally the same distance as the distance it falls, this is referred to as a 1:1 (one-to-one) glide slope. Many aircraft can not do this and will drop faster than they fly forward.
travel horizontally
The ball will follow a parabolic trajectory as it moves through the air, influenced by gravity. Eventually, the ball will hit the ground of the canyon below. It will travel a distance horizontally and vertically before reaching the ground, with the exact path dependent on the initial velocity and angle at which it was thrown.
You had better travel near the speed of light or you will not see much of the universe. Unfortunately travelling near the speed is not yet possible, so you are out of luck.