Length is the how long is an object horizontally. Height is how tall is an object vertically.
Acceleration is dependent on the initial velocity of how fast the object is leaving the projectile. The vertical acceleration is greater when the object is falling than when the object reaches the peak in height. However, if the object is thrown horizontally and there is no parabola in its shape then there is not as great of an acceleration.
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.
The force of gravity is the same, whether the object doesn't move at all, whether it moves horizontally, vertically, diagonally, or whatever. The force is about 9.8 newton/kilogram.Therefore, if no other forces act on the object, it will accelerate downward at a rate of 9.8 meters/second squared - again, no matter how the object is moving at any given time. Under gravity (and assuming no other forces are significant - such as air resistance), an object that initially moves horizontally will have the tendency to move in a parabola.
whyh does the sped decreases when an object is thrown vertically up
No, never. They act perpendicularly, so they could never cancel. Only forces which act parallel and in the opposite direction can cancel.
No. Length is a two-dimensional measure, whereas height is a 3-dimensional measure. Something (a 3-D object) having height, will also have length. But a 2-D object can never have any height. Example a picture of a table has no height "literally" (we can just make an assumption). But an actual table (which is 3-dimensional object) has height. Height is the distance of the object's top from the earth. Heigth is measured vertically. Length is measured horizontally. It is parallel to the ground.
More information is required in order to answer this question. The distance of the earth from where? The moon, sun, nearest star, centre of our galaxy, furthest known astronomical object?
If there is no forces acting, it will continue horizontally at constant velocity, while uniformly accelerating vertically down , the effect of this would trace a parabolic curve
Well, if you do that for a while, you could certainly raise a sweat, and you would say that you've done a lot of work. But in the strict Physics definition of "work", none of it has been done to the object you carried. The strict definition is: Force acting through a distance. Referring to the object you carry: -- You don't move it vertically. You just hold it there against the force of gravity, but your vertical force doesn't move it up or down. So no work is done vertically. -- Horizontally, the speed is constant. No force is required to maintain a constant speed, so no work is done horizontally either.
Neptune is the second furthest major object from the sun in our solar system. Pluto is the furthest.
to feflect an object so the reflected object is the right way up
An object gains energy when it is either heated or pushed. If pushed vertically, it gains gravitational potential energy. If pushed horizontally, it gains kinetic energy.
The furthest point a of a satellite from the parent body in an orbit is called the apogee.
The furthest man-made object from Earth is space probe Voyager 1,launched 1977.It is,as of May 9,2011,about 17,300,000,000km from the Sun.
The distance from a converging lens to the object is called focal length. The object distance is equal to the image distance.
Your question is incomplete. It sounds like you are asking how the object falls. Aside from air resistance, the only force acting on it is the vertical component of gravity. Therefore, the object will fly a distance x = v (2d/g)1/2 where v is the horizontal velocity, d is the distance from the ground, and g is the acceleration of gravity.
The Voyager 1 space probe.
No, it can be thrown in any direction.
a object that has a line horizontally drawn across the figure