If the density of the ball bearing is less than the density of the given oil, the ball bearing will float in the oil since objects with lower density float on substances with higher density. The buoyant force acting on the ball bearing will be greater than its weight, causing it to rise to the surface of the oil.
If the density of the ball bearing is less than the density of glycerine oil, the ball bearing will float on the surface of the glycerine oil. Objects with lower density than a liquid will float on that liquid due to buoyancy force.
If the density of a ball bearing is less than the density of glycerine oil, the ball bearing will float when placed in glycerine oil. This is because objects with lower density than the fluid they are placed in tend to float.
To find the density of a ball bearing, you would typically measure its mass using a scale and then calculate its volume using a method like water displacement. Once you have both the mass and volume, you can divide the mass by the volume to find the density of the ball bearing.
You can determine the volume of a steel ball bearing by using the formula for the volume of a sphere, V = (4/3) * π * r^3, where r is the radius of the ball bearing. Measure the diameter of the ball bearing and divide it by 2 to calculate the radius, then plug it into the formula to find the volume.
If the density of the ball bearing is less than the density of the given oil, the ball bearing will float in the oil since objects with lower density float on substances with higher density. The buoyant force acting on the ball bearing will be greater than its weight, causing it to rise to the surface of the oil.
If the density of the ball bearing is less than the density of glycerine oil, the ball bearing will float on the surface of the glycerine oil. Objects with lower density than a liquid will float on that liquid due to buoyancy force.
If the density of a ball bearing is less than the density of glycerine oil, the ball bearing will float when placed in glycerine oil. This is because objects with lower density than the fluid they are placed in tend to float.
To find the density of a ball bearing, you would typically measure its mass using a scale and then calculate its volume using a method like water displacement. Once you have both the mass and volume, you can divide the mass by the volume to find the density of the ball bearing.
To calculate the number of iron atoms present in the stainless steel ball bearing, you first need to determine the mass of the ball bearing. This can be done by calculating the volume of the ball bearing using the radius provided. Once you have the volume, you can calculate the mass using the density. Then, you can determine the mass of iron in the ball bearing using the percentage of iron by weight. Finally, convert the mass of iron to the number of iron atoms using Avogadro's number.
You can determine the volume of a steel ball bearing by using the formula for the volume of a sphere, V = (4/3) * π * r^3, where r is the radius of the ball bearing. Measure the diameter of the ball bearing and divide it by 2 to calculate the radius, then plug it into the formula to find the volume.
82 ml (millilitres) is the same as 82 cc (cubic centimetres)
Impossible to identify without knowing what the ball is composed of or the radius
To calculate the mass of a ball, you would typically use the density of the material the ball is made of and its volume. The formula to calculate mass is mass = density x volume. You would need to know the density of the material and measure the volume of the ball to determine its mass.
The charge on the ball bearing is positive.
A ball bearing is a stainless steel ball used in 'bearing races' to make a full bearing unit. Vet common in all machinery construction.
Ball Bearing - advertisement - was created in 1992.