Because the smoke you see during the burning, and the hot gases that
you don't see, carry part of the mass away from the object.
Inertia decreases as mass gets smaller. Inertia is a measure of an object's resistance to changes in its state of motion, and is directly proportional to mass. As mass decreases, so does the inertia of the object.
When the volume increases and the mass decreases, the density of the object decreases. This means that the object becomes less compact or dense for the given volume. The relationship between volume and mass is important when considering the physical properties of an object.
Large mass
the weight decreases and mass stays the same
The weight of an object is determined by its mass and the force of gravity acting on it. A smaller object can be heavier than a larger object if it has a greater density, which means more mass packed into a smaller volume. This increased mass results in a greater gravitational force acting on the object, making it feel heavier.
The object with a smaller mass will accelerate more when acted upon by a constant force because acceleration is inversely proportional to mass. Specifically, the acceleration is calculated by dividing the force by the mass of the object, so a smaller mass will result in a greater acceleration.
The smaller the mass of an object, the lower its inertia. Inertia is the resistance of an object to changes in its state of motion, so objects with less mass require less force to accelerate or decelerate compared to objects with more mass.
It is easier to change the motion of an object with a smaller mass because it has less inertia, which is the tendency of an object to resist changes in its motion. Objects with larger mass have more inertia and resist changes in motion more strongly. This means it takes more force to change the motion of an object with a larger mass compared to one with a smaller mass.
No, it depends on the degree of compactment of its individual molecules or matter.
The density of an object is directly correlated with the amount of mass contained in the object. For example, a small object containing a large amount of mass has more density than a larger object with a smaller amount of mass.
An object would have smaller acceleration if the net force acting on it is smaller. This could be due to a decrease in the magnitude of the force applied, an increase in the mass of the object, or the presence of opposing forces that balance out the applied force.
Using the second law equation the object the larger mass has a smaller blank? Let me make a correction to your question!Using the same force, Newton's second law equation states the object with the larger mass has a smaller blank?Using the same force, Newton's second law equation states the object with the larger mass has a smaller acceleration?Force = mass * accelerationF = m * a, If force is constant, then the mass and acceleration are inversely related. Mass goes up, acceleration goes down. Heavy object is harder to accelerate.