yeah it actually depends upon the "material" you have taken, if it is so large then it will make no difference. but if you want exact measurement, then its mass will remains constant. rust will fulfill the deficiency in mass of that material. If we remove the dust then its mass will obviously decreases.
The reaction that occurs when iron rusts is an oxidation-reduction reaction, specifically the formation of iron oxide (rust) when iron reacts with oxygen and moisture in the environment. After rusting, the total mass of the iron object will increase compared to its original mass because the rust contains both the iron and the oxygen from the air. This additional mass comes from the oxygen that has combined with the iron during the rusting process.
You can increase the density of an object with constant mass by decreasing the object's volume.
If the volume remains the same, the density will increase in direct proportion to the increase in mass.
The kinetic energy depends on both mass and speed. If either mass or speed increase, the kinetic energy will increase as well.
The kinetic energy of a moving object depends on its mass and its velocity. The formula for kinetic energy is 0.5 x mass x velocity^2. This means that both increasing the mass or the velocity of the object will increase its kinetic energy.
1. Rusting is an oxidation reaction of iron.2. The mass of an object increase after rusting.
Rusting is a chemical reaction known as oxidation. When a metal object rusts, it gains mass because the iron in the metal reacts with oxygen to form iron oxide (rust). The mass of the object after rusting will be greater than its original mass due to the addition of the iron oxide.
If you increase the mass of an object, the potential energy will increase.
The mass would be greater
The reaction that occurs when iron rusts is an oxidation-reduction reaction, specifically the formation of iron oxide (rust) when iron reacts with oxygen and moisture in the environment. After rusting, the total mass of the iron object will increase compared to its original mass because the rust contains both the iron and the oxygen from the air. This additional mass comes from the oxygen that has combined with the iron during the rusting process.
You can increase the density of an object with constant mass by decreasing the object's volume.
No, heat does not increase mass. Heating an object can increase its internal energy and cause it to expand, but the total mass of the object remains the same.
Yes, because the air has mass. Note that the amount by which the mass increases in this case is often insignificant.
You can increase the momentum of an object by either increasing its mass or its velocity. By increasing the mass of the object, the momentum will increase proportionally. Alternatively, increasing the velocity of the object will also increase its momentum.
If you increase the mass of an object and keep the force constant, the acceleration of the object will decrease because the force-to-mass ratio decreases. Conversely, if you increase the force applied to an object while keeping the mass constant, the acceleration of the object will increase because the force-to-mass ratio increases.
To increase the momentum of an object, you can either increase the object's mass or increase its velocity. Momentum is calculated as the product of mass and velocity, so changing either factor will impact the overall momentum of the object.
no