macroscopic , also: megascopic

No macroscopic work can be done by the equilibrium system.

On the everyday macroscopic scale the effect can be made small.

In this case a macroscopic theory can be applied to explain the results.

No macroscopic changes occur, as the system is in equilibrium.

For a macroscopic system this will be a very large dimensionality.

May be macroscopic and lead to dark brown or smoky urine.

Work is the energy transfer associated with an ordered, macroscopic action on the system.

"Oh, I doubt that would happen, other than on the macroscopic scale, of course."

It can be applied to both microscopic and macroscopic systems.

A certain number of physical properties also alter with the change from macroscopic systems.

The second law of thermodynamics is a statement about macroscopic systems.

Also the majority of macroscopic phenomena would be the same if they existed.

Small actions repeated a million times over, with decidedly macroscopic results.

A macroscopic position could be considered the "big picture".

But it's quite another thing on a macroscopic scale.

None of these elements has ever been collected in a macroscopic sample.

Many of these species can be readily distinguished by macroscopic features.

This corresponds to a macroscopic performance of about 110 m/s.

The macroscopic cycling of matter around this cycle is the engine at work.

Classical thermodynamics is the study of energy and work in macroscopic systems.

The second law is only applicable to macroscopic systems.

When the distinction is made, they are called the macroscopic Maxwell's equations.

This is not always the case: many macroscopic phenomena are based on quantum effects.

Sometimes a quantum-level event can have effects at the macroscopic level.

"That's why we get macroscopic readings rather than the motion of individual particles."