Right at the center - as with any figure that is sufficiently symmetric.
The formula for the center of gravity of a rectangle is: X = (W/2) and Y = (H/2), where X is the distance from the side of the rectangle to the center and Y is the distance from the top of the rectangle to the center, W is the width of the rectangle, and H is the height of the rectangle.
The point where an object's weight is concentrated is called its center of gravity. It is the point where the force of gravity can be considered to act.
The force that pulls objects towards the center of the Earth is called gravity.
centre of mass is nothing the mass (volume) situated at centre which is not at all use full for pt of control. but centre of gravity is that pt at which we can hold the total mass or body .
The center of gravity of an object depends on its mass distribution and shape. The location of an object's center of gravity affects its stability and balance. Objects with a lower center of gravity are typically more stable.
Just draw the two diagonals of the rectangle,the point of intersection you will get5,is the centre of gravityof rectangle
centre it and that is the answer
Yes, the position of the Metacentre depends on the position of the centre of gravity. If the centre of gravity is above the Metacentre, the ship will be stable. If the centre of gravity is below the Metacentre, the ship will be unstable.
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.
Yes it does - they bisect each other at the exact centre of the rectangle.
gravity is a force by which objects are attracted to the centre of.
The formula for the center of gravity of a rectangle is: X = (W/2) and Y = (H/2), where X is the distance from the side of the rectangle to the center and Y is the distance from the top of the rectangle to the center, W is the width of the rectangle, and H is the height of the rectangle.
The Earth's Core lies at the centre.
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?
At the centre of the Earth.