α = (Fr sinθ)/m
where F is the force acting on the object
..........r is the radius from the 'centre' of the object to the point of application of force.
..........θ is the angle between r and the vector of the force.
..........m is the moment of inertia of the object.
Seems like a vague question, but... the most general way to find magnitude in physics and math is to take the square root of the sum of the squares of the x and y components (vectors). = √(x2 + y2).
For example: A force, F, has a horizontal (x) component of 3i and a vertical component (y) of 4j. The magnitude of F would be √(32+42) = 5N
*N=Newtons which is the standard unit of measure for forces.
Next time be more specific if possible - hope this helps.
Your question has a flaw. If you are using the Richter scale, it would be ML = log10A - log10A0(δ), and if you are using Moment magnitude, it is Mw = (2/3) log Mo - 10.7
the magnitude and direction of forces can be found out using method of resolution...
acceleration = (final velocity - initial velocity)/time interval
total work done / distance
ytjyjk/j;[;j/[;./[y.;[
-- The magnitude of acceleration is equal to the time rate of change of speed. -- The magnitude of acceleration is equal to the time rate of change of the magnitude of velocity. -- Acceleration and velocity are both vectors.
Inertia is affected by an outside force. So if you calculate the moment of inertia, you calculate the magnitude and possibly the direction of the outside force. You can use this to determine acceleration.
Acceleration is a vector quantity because it has both magnitude and direction.
That's the magnitude of its acceleration.
It is called acceleration.
magnitude of acceleration=change of velocity/time invertal
-- The magnitude of acceleration is equal to the time rate of change of speed. -- The magnitude of acceleration is equal to the time rate of change of the magnitude of velocity. -- Acceleration and velocity are both vectors.
-- First of all, you calculate the magnitude and direction of vectors. An object or a truck are not vectors. Things like their weight, velocity, and acceleration are. -- There are different methods and formulas for calculating each different vector. For example: . . . The truck's weight is (the truck's mass) x (the acceleration of gravity) downward . . . The truck's acceleration is (the rate at which its speed changes) in the direction in which its speed changes.
yes, Acceleration is vector quatity!!. Its has both magnitude and direction
Inertia is affected by an outside force. So if you calculate the moment of inertia, you calculate the magnitude and possibly the direction of the outside force. You can use this to determine acceleration.
Zero is.
gravity
Acceleration is a vector quantity because it has both magnitude and direction.
That's the magnitude of its acceleration.
It is called acceleration.
magnitude of acceleration
It is called acceleration.