An increase in size can two significant effects on the organism: first greater size means a decrease in the ratio between surface area and mass (usually) so that heat loss across the skin decreases. Larger animals have a lower rate of metabolism by weight. Secondly is in height's effects on blood pressure differences. In a two meter human we have to adjust our heart rates to avoid orthostatic hypotension. The problem for a giraffe is even more dramatic. hope it helped you. :)
hey....the size independent properties are....density, melting point, solubility, ability to attract a magnet, state of matter, color, and boiling point.
Heterometric means involving or dependent on a change in size. I think it has something to do with hetrometre. Maybe.
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.
characteristics of physical properties are; mass, volume,color,size,shape,texture. YOUR WELCOMEE
DIRECTION
Size dependent properties include mass and volume. Size independent properties include density and malleability.
Extrinsic properties.
hey....the size independent properties are....density, melting point, solubility, ability to attract a magnet, state of matter, color, and boiling point.
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Some properties are mass, weight, and 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.
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 refers to a relationship or characteristic that changes based on the size or scale of an object or system. This can include how properties, behavior, or effects vary depending on the size of the entity being considered. Size-dependent effects are commonly observed in areas such as material science, biology, and physics.
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.
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.
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.
Size-dependent definition refers to concepts or properties that vary based on the size of an object or system. For example, in materials science, the mechanical properties of materials can change when they are reduced to nanoscale dimensions due to increased surface area-to-volume ratios or quantum effects. This concept is crucial in fields like nanotechnology and medicine, where the behavior of materials can differ significantly at different scales.