The object will be moving at 14.7 meters per second. 1.5 seconds X 9.8 meters per second squared(the gravitational constant). This assumes that the object's original velocity is zero.
4.9 meters (16.1 feet)
It's not clear what you mean by the rate of the object, since objects don't have rates.When an object is dropped, on or near the Earth's surface, its rate of accelerationis 9.8 meters per second2, and its rate of speedincreases by 9.8 meters per secondevery second that it continues to fall.
The acceleration of an object under the force of gravity alone is*: a = GM/R^2 a = acceleration G = gravitational constant (G = 6.674E-13 Nm^2/kg^2) M = mass of the object/planet R = distance from the center of the object/planet At the equator, an object dropped near the surface of Earth falls with an acceleration of 9.78 meters per square second. At the equator on Mars, and object dropped at the surface will fall with an acceleration of 3.71 meters per square second. Therefore Mars has about 38% of the Earth's gravity. *This equation is only true for spherically-distributed masses
About 9.8 meters/second2. This means that every second, the velocity will change 9.8 meters/second.
If their is no air resistance, it will go faster and faster, at a rate of 9.8 (meters / second) / second.
When an object is dropped near the Earth's surface, and it experiences no air resistance, then its speed after 3 seconds is 29.4 meters (96.5 feet) per second, and its velocity is directed toward the Earth's center of mass, nominally the Earth's geometric center, colloquially referred to in the bourgoise vernacular as "down".
The acceleration is 9.807 meters per second squared.
The speed of an object in free fall near the earth's surface is always 9.8 meters (32.2 feet) per second morethan it was one second earlier.
An object affected by the gravity of the Earth is falling at 9.8 meters per second per second, also written as 9.8 m/s^2.
The force of gravity on any object near the surface of the earth and close to sea level is 9.80 meters per second per second.
Dropped objects hit the ground at the same time (as long as they're dropped from the same height) because the acceleration of gravity is constant. On earth, it's 9.8 meters per second (32.2 feet per second) every second.
It doesn't. Close to Earth's surface, any object will accelerate towards the center of the Earth at a rate of about 9.8 meters/second squared, regardless of the object's mass.