Determine the Archimedean force acting on a copper ball with a volume of 0.009 m3

Determine the Archimedean force acting on a copper ball with a volume of 0.009 m3 immersed in alcohol. density of alcohol 800kg / m3

Given:

V = 0.009 m3 (cubic meters) – the volume of a copper ball immersed in alcohol;

ro = 800 kg / m3 (kilogram per cubic meter) is the density of alcohol.

It is required to determine F (Newton) – the Archimedean force acting on the copper ball.

To determine the buoyancy (buoyancy) force, you must use the following formula:

F = ro * V * g, where g = 10 Newton / kilogram (approximate value);

F = 800 * 0.009 * 10;

F = 8000 * 0.009 = 72 Newtons.

Answer: an Archimedean force will act on a copper ball immersed in alcohol, equal to 72 Newtons.