It seems that the question did not get finished. I am guessing that you want to know the density of the object. In air, it weighs 0.1 Newton. With an acceleration of 10 m/s^2, we can find the mass by Weight/acceleration = mass. So (0.1 kg*m/s^2) / (10 m/s^2) = 0.01 kg
The weight of water that it displaces is 0.02 Newtons, which has a mass of 0.002 kg. Since water has a density of 1000 kg/m^3, we divide mass/density to get volume. So volume is 2 x 10^-6 m^3
Now divide the mass of the block by the volume, to get the density. (0.01 kg)/(2 x 10^-6 m^3) = 5000 kg/m^3, or 5 times the density of water.
The cylinder measures volume, the balance measures weight.
The magnitude of the acceleration required to make the balance reading zero would equal the gravitational acceleration acting downwards on the balance. The direction of this acceleration would be upward to counteract the gravitational force acting downward, resulting in a net force of zero on the balance.
A balance scale or weight scale is a tool that measures weight or mass.
Mass Hope this helps =D
A beam balance uses a lever and sliding weights to measure mass by balancing two sides of a beam, whereas a spring balance measures force by using Hooke's law to determine the force needed to stretch a spring. Beam balances are more precise for measuring mass, while spring balances are more convenient for measuring force.
a spring balance
Spring balance shows remarkably less weight of yours, when immersed in the water. Your weight will be shown less as much the weight of water you have displaced.
The cylinder measures volume, the balance measures weight.
A spring scale measures weight while a triple beam balance measures mass.
A spring scale measures weight while a triple beam balance measures mass.
The cylinder measures volume, the balance measures weight.
The magnitude of the acceleration required to make the balance reading zero would equal the gravitational acceleration acting downwards on the balance. The direction of this acceleration would be upward to counteract the gravitational force acting downward, resulting in a net force of zero on the balance.
Roughly speaking, acceleration is caused by destroying the balance of forces on an object.
Balance.
A balance measures mass.
Measures to correct the deficit in the balance of payments include deflation, depreciation, and devaluation. In addition, there is exchange control.
A partner balance it a balance where you are balancing completely on your partner.