Two ways to find the mass of an object:
1). Compare it with an object whose mass is known, for example on a balance scale, using a set of calibrated masses.
2). Weigh the unknown mass. Since we know the acceleration of gravity on earth (9.8 meters/32.2 feet per second2), we can divide the weight by the acceleration of gravity to find the mass.
To find the mass of an object, you can use a balance or a scale. Place the object on the balance or scale, and it will give you a measurement of the object's mass.
You can find the mass of an object by multiplying its volume by its density. The formula to calculate mass is: mass = volume x density. Simply plug in the given values for volume and density to calculate the mass of the object.
To find the mass density of an object, you need to know the mass of the object and its volume. Mass density (ρ) is calculated as the mass (m) of the object divided by its volume (V): ρ = m/V.
To find the mass of an irregular object, you can use a balance or scale. First, measure the mass of the object on the balance. Then, subtract the mass of the container or platform you placed the object on to get the mass of the object alone.
You need the object's volume and the object's mass to find the object's density. Then, you divide the object's mass by it's volume. The formula for density is d = density m = mass v = volume
To find the mass of an irregular object using a common balance, you can first weigh a known object with a regular shape to calibrate the balance. Then, weigh the irregular object. Subtract the mass of the known object from the total mass to determine the mass of the irregular object.
A Triple Beam Balance is used to find the mass of an object.
You have to find out its mass, and its volume. Then you divide its mass by its volume.
The center of mass of an object is the point at which its mass can be considered to be concentrated. It is the average position of all the mass in the object. It is the point around which the object will balance in any orientation.
Large mass
Subtract the mass of the beaker from the total weight.
Mass of the object times the velocity o the object.