Galileo Galilei discovered the Law of Falling Bodies. Newton worked out the first equations. Einstein worked out better equations.
Yes, falling bodies accelerate due to the gravitational force pulling them downward. However, as they encounter air resistance, they may decelerate. The net effect is the acceleration of a falling body decreasing over time as it reaches its terminal velocity.
Isaac Newton discovered the gravitational force through observations and experiments, including his famous apple falling from a tree. He formulated his law of universal gravitation to explain the attraction between all objects with mass.
Newton prove gravity by means of an apple falling on his head
In the absence of air resistance, mass does not affect the motion of a projectile. All objects fall at the same rate regardless of their mass in a vacuum. This principle is described by Galileo's law of falling bodies.
The velocity of free falling bodies does change due to gravity accelerating them towards the ground. However, in the absence of air resistance, the acceleration due to gravity causes the velocity to increase at a constant rate, resulting in a uniform change in speed over time. This creates the perception that the velocity is not changing, but in reality, it is increasing continuously.
Gaileo
by using their on identifyng magnet GLASSes of thermodaynamics
Freely falling bodies
ang tae baho kaayo..............
Copernicus
many different ways that i do not know
he was most famous for his "law of falling bodies"
free falling bodies
Galileo
Well Galileo Galilei didn't really create anything, but he discovered a lot. He discovered many celestial bodies as in Io, Europa, Ganymede, and Callisto, which all are some of Jupiter's moons. He also "started" discovering the Law of Inertia, which Isaac Newton later builds on. He also discovered the Law of the Pendulum and the Law of falling bodies. He also published many books.
Why the velocities of falling bodies are not proportional to their weights?
read the plannnin exercise. Stokes law only applies to the case....