All of these isotopes are readily found in macroscopic quantities in nature.

Some intensive properties, such as viscosity, are empirical macroscopic quantities and are not relevant to extremely small systems.

Statistical mechanics provides a molecular-level interpretation of macroscopic thermodynamic quantities such as work, heat, free energy, and entropy.

With the advent of fullerenes in macroscopic quantities, chemists have got to work.

The macroscopic quantities that describe the state of a thermodynamic system are called state variables or state functions.

ORNL produced the first macroscopic quantities (grams) of separated plutonium with these processes.

The atomic velocities are related to the temperature of the system, a macroscopic quantity.

Whilst one of these (einsteinium) is now available in macroscopic quantities, most are extremely rare, having only been prepared in microgram amounts or less.

The states of small local regions are defined by macroscopic quantities that are explicitly allowed to vary with time, including time-varying flows.

No element heavier than einsteinium (element 99) has ever been observed in macroscopic quantities in its pure form.