Properties independent of size include temperature, melting point, hardness and density.
The ball is the independent variable in this scenario as we can manipulate or change its properties (such as mass, size, material) to observe how it affects the motion down the ramp, which is the dependent variable.
An intensive property of a thermodynamic system is a property that is independent of the system's size or quantity. Examples include temperature, pressure, and density. These properties are useful for comparing and characterizing different systems regardless of their size.
Properties that change when the size of an object changes are called dependent properties. These properties are influenced by the scale or dimensions of the object and are not fixed values. Examples include mass, volume, and surface area.
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.
In thermodynamics, intensive quantities do not depend on the size of the system. For example temperature and density are size-independent, intensive quantities.Extensive quantities, on the other hand, are proportional to the size of the system: volume is an obvious one, internal energy and entropy are others.A quick mental test is this: if I were to double the system's size by joining it to a duplicate of itself, would the relevant quantity remain the same or double? If it stays the same it is intensive, otherwise it is extensive.
Size dependent properties include mass and volume. Size independent properties include density and malleability.
Size independent properties are those that do not change with the size of an object. Size dependent properties are those that change with the size of an object.
size independent properties are basically soap and other slippery cotentslike that i take a class in college and were talkin about the properties and changes
Density and Water.
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Size properties of an iron nail include its length and diameter, which can vary based on the specific type of nail. Size independent properties include its density, which remains constant regardless of the nail's size, and its magnetic properties, as iron nails are typically ferromagnetic and can be magnetized.
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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.
hey....the size independent properties are....density, melting point, solubility, ability to attract a magnet, state of matter, color, and boiling point.
Size-independent properties are characteristics that do not change with the size of the system or object. Examples include density, which remains constant regardless of the amount of substance, and boiling point, which is intrinsic to the material itself. Other examples are the refractive index and specific heat capacity, both of which are material properties that do not vary with the size of the sample.
The ball is the independent variable in this scenario as we can manipulate or change its properties (such as mass, size, material) to observe how it affects the motion down the ramp, which is the dependent variable.
size independent