Please note that a magnetic field is not measured in units of acceleration (or the equivalent force / mass), like gravity is.
What exactly happens when a bar magnet falls through a metal ring will depend on the details of the situation - for example, how strong the magnetic field is, and the mass of the bar magnet.
Object's weight = (object's mass) multiplied by (acceleration of gravity in the place where the object is)
the acceleration of gravity is 9.8 m/s
mass times the acceleration due to gravity
Tension = mass(acceleration) + force of gravity Force of gravity equals mass times gravity (9.8m/s2)
Going back to basic physics, motion results from acceleration, and acceleration equals force divided by mass. The force exerted by magnetic fields is described by Coulomb's Law.
f = m*a where a = acceleration due to gravity, which is 9.8 metres per second2
m is the mass of an object. g is acceleration due to gravity, which is 9.81m/s^2. So mg is mass x acceleration due to gravity. It equals the weight of an object. Typically mass is measured in grams and acceleration due to gravity is in meters per second squared, giving the weight in Newtons.
the object will floatit shows increasing acceleration
look mass times acceleration equals potential gravity this causes rockets to launch
Weight is measured in kg wt which equals to g newtons. g - acceleration due to gravity at that place.
2, Gravity and Friction (aka wind resistance). The body will reach terminal velocity when the air it is passing through creates enough friction so that it equals the force of gravity therefore stopping any further acceleration.
The force of gravity causes objects to accelerate (speed up) when they fall. This is because of newtons law F=MA force equals mass times acceleration, meaning when you put a force such as gravity on a mass it will accelerate the mass