No, mass is not size-dependent. Mass is a measure of the amount of matter in an object, while size refers to the dimensions or physical extent of an object. Two objects of different sizes can have the same mass if they contain the same amount of matter.
No, look at a the the size of a beachball and the size of a Bowling ball. Answer2: Yes. The weight of an object is dependent on mass. Weight = mass times gravity acceleration g, W = mg.
mass density or densityof a material is its mass per unit volume. Mathematically, density is defined as mass divided by volume.
Three size-dependent physical properties are surface area, melting point, and optical properties (such as color or transparency). These properties can change as the size of a material decreases, leading to different behaviors and characteristics at the nanoscale.
Mass is independent of gravity and weight but is dependent on the amount of matter an object contains. In other words, an object's mass remains the same regardless of its location in the universe.
The force of gravity on an object is dependent on the object's mass. Objects with more mass experience a greater force of gravity compared to objects with less mass.
Some properties are mass, weight, and volume.
No, look at a the the size of a beachball and the size of a Bowling ball. Answer2: Yes. The weight of an object is dependent on mass. Weight = mass times gravity acceleration g, W = mg.
Density is an intensive property - not dependent on the mass.
Size independent property is physical properties that do not change when an object changes. Size dependent is physical properties that change when the size of an object changes.
Size dependent properties include mass and volume. Size independent properties include density and malleability.
A property is considered size-dependent if it changes as the size of the system, such as the number of atoms or molecules, changes. For example, properties like surface area, volume, and heat capacity are size-dependent because they vary with the extent of the system. Conversely, size-independent properties, like density and melting point, remain constant regardless of the system's size.
Weight is dependent on mass. Weight is the force exerted on an object due to gravity, and it is directly proportional to an object's mass. Mass, on the other hand, remains constant regardless of location in the universe.
Size is the defining factor of volume, and the greater the volume for a given density, the greater the mass. Density can be changed by changing the volume but will always depend on the chemical makeup of the substance.
Size is the defining factor of volume, and the greater the volume for a given density, the greater the mass. Density can be changed by changing the volume but will always depend on the chemical makeup of the substance.
Size is the defining factor of volume, and the greater the volume for a given density, the greater the mass. Density can be changed by changing the volume but will always depend on the chemical makeup of the substance.
This depends for intensive (not dependent of mass) and extensive (dependent of mass) properties.
So a size dependent property is going to be a property that duh.. depends on the size. Like mass, volume etc. A size independent property is going to be a property that is intrinsic to the object, regardless of size. For example: the color of something. if you have a purple flower, the color of the flower does not change if you have two or three or four of them. density of an object is also another one.