With autocad software
1.Draw any shape
2.Covert to poly line
3.Type region in command bar
4.Type massprop in command bar
5.Note down values of centroid(x,y) by pressing F2
6.Type line command
7.Input centroid values(X,y) in command bar
8.centroid of the particular shape can be located.
Tyr it
BEST OF LUCK
Each body has its own centre of gravity. The centre of gravity of two regular shapes - an equilateral triangle and a square will be different so why should the cog of a regular and an irregular shape not be different?
Because your body's centre of gravity is disrupted when you stand on one foot. Standing on both feet, your centre of gravity is equidistant from left to right.
The period of a pendulum is totally un-affected by the mass of the bob.The time period of pendulum is given by the eqn.T=2*PIE*(l/g)1/2 ;l is the length of pendulum;g is the acceleration due to gravity.'l' is the length from the centre of suspension to the centre of gravity the bob.ie.the length of the pendulum depends on the centre of gravity of the bob,and hence the distribution of mass of the bob.
It is the centre of the circle. The size of the radius makes no difference.
Centre of area of a triangle is the centre point for a circumscribed radius which will pass through all 3 vertices of the triangle.
Each body has its own centre of gravity. The centre of gravity of two regular shapes - an equilateral triangle and a square will be different so why should the cog of a regular and an irregular shape not be different?
No. As a simple example consider a donut shape! The center of gravity lies in the middle where the hole is.
If a force acts in a direction which passes through the centre of gravity of the object then it will impart no rotational acceleration; only linear acceleration.
Centre for Software Reliability was created in 1983.
It isn't. Gravity can be viewed as emanating from the centre of a body with mass. As the distance increases from the centre then the gravity decreases.
As compared to Earth, you mean? If an object doesn't change its shape, the center of mass doesn't depend on gravity - and the center of gravity hardly does so.
gravity is a force by which objects are attracted to the centre of.
Gravity pulls it down to where it has the centre of gravity at its lowest, when moving the lowest possible centre of gravity changes so it moves around.
The Earth's Core lies at the centre.
Usually the centre of gravity is at the centre of the object, scaling from both sides OR centre of mass where the object is stable when holding it up on a pin point
Assuming the ball is a perfect sphere of uniform density, and is suspended from a massless string, the centre of gravity is in the centre of the ball.
How do you find centre of gravity of a vehicle?