What is an observation or measurement?

In summary: The conversation discusses the concept of measurement and observation in the context of quantum mechanics. There is much debate and confusion about what constitutes a measurement and whether it is a subjective or objective event. The Copenhagen interpretation, which was popular before the discovery of Decoherence, is now widely abandoned due to its lack of clear definition. Some argue that a measurement is when something is irreversibly recorded on a macroscopic readable device, while others believe it is simply an update of the observer's wave function. The idea of objectivity and subjectivity in measurement and how it relates to scientific knowledge is also discussed. Overall, there is no clear consensus on the definition of measurement and it remains a topic of debate. In summary, the conversation revolves around the concept of
  • #1
least_action
22
0
What is an observation or measurement?

If it is not known exactly I would like to at least have some good appreciation of what the fuzzyness of the boundary is.
 
Physics news on Phys.org
  • #2
There is no clear definition of what measurement is (and can't be, why some combinations of atoms, called 'measurement devices', should behave differently from the others?); this is a main reason why Copenhagen interpretation, which was mainstream before the discovery of the Decoherence is abandoned now (but it is still #1 in popular articles, so you can always find something about 'wavefunction collapse' without a definition why some combination of atoms caused it)
 
  • #3
You will get many different answers. Mine is simple: when something has been irreversibly recorded on a macroscopic readable device - that means some measurement/observation has taken place. It does not matter whether this fact will be discovered in 1000 years form now or never.

Of course one would have to explain "macroscopic readable device" and "irreversibly" - but usually we have no doubts about what these terms mean.
 
  • #4
Dmitry67 said:
There is no clear definition of what measurement is (and can't be, why some combinations of atoms, called 'measurement devices', should behave differently from the others?); this is a main reason why Copenhagen interpretation, which was mainstream before the discovery of the Decoherence is abandoned now (but it is still #1 in popular articles, so you can always find something about 'wavefunction collapse' without a definition why some combination of atoms caused it)

Aren't you referring to what should be called the VonNeumann-Copenhagen interpretation? In the original Copenhagen interpretation, a measurement merely causes the physicist to update his wave function to reflect the new information he has gained as a result of his experiment. While not widespread, I believe it is still a viable viewpoint held by many people.
 
  • #5
Yes, there are 2 different flavors of Copenhagen Interpretation, in one wave function is "just knowledge" and is not objective. You're right, that viewpoint is held by some people, even that interpretation also has its own sort of "magic" (behavior of elementary entities is described using more complicated things like 'consciousness' or 'knowledge') That sort of interpretation also raises questions about “did collapse ever occur before the first living entity was born” or “if wave function is knowledge, and knowledge is subjective, why objective reality obeys the probability density described by wavefunction?

I do hope that page is turned.
 
  • #6
Just to stand up for the view that is different from Dmitrys.
Dmitry67 said:
if wave function is knowledge, and knowledge is subjective, why objective reality obeys the probability density described by wavefunction?
Because the set of all subjective views in these cases has evolved relations by interacting, that fills the purpose of "objectivity" with respect to the set of subjective views. Each subject in this set will agree on certain things - these are the objective inter-subjective laws.

Subjectivity does not equal arbitrariness. The set of possible subjective views are still constrained, just like the set of observers in SR or GR.

About the OT; a measurement is thus a subjective event as well. But this does not mean that it's meaningless. Measurement theory is about measurements, and all measurements unavoidable are subjective at least in the sense that they required a contex; a measurement device or and observer.

The main confusion is I think howto understand this apparent conflict between subjectivity in measurement and the objectivity we required form science.

Either you try to understand how objectivity and scientific knowledge emerges, in a construction (such as measurement theory) which seems to be fundamentally subjective?

or you try to understand how you can understand emergence of subjectivity from an overall assumed objectivity.

Which way you choose is somehow significative for your level of structural realism.

/Fredrik
 

1. What is the difference between an observation and a measurement?

An observation is the act of using our senses to gather information about something, while a measurement is the quantification of that information in numerical or quantitative terms.

2. How do observations and measurements contribute to scientific research?

Observations and measurements are essential tools in scientific research as they provide the basis for collecting and analyzing data, identifying patterns, and making conclusions about the natural world.

3. Can an observation be subjective or biased?

Yes, an observation can be subjective or biased if it is influenced by personal opinions, beliefs, or experiences. This is why it is important for scientists to design experiments and use tools that minimize subjectivity and bias.

4. How are observations and measurements used in data collection?

Observations and measurements are used in data collection to gather accurate and reliable information about a particular phenomenon. This data can then be analyzed and used to support or refute a hypothesis or answer a research question.

5. What are some common tools used for making observations and measurements?

Some common tools used for making observations and measurements include rulers, thermometers, microscopes, telescopes, scales, and timers. These tools allow scientists to collect precise and accurate data in a controlled manner.

Similar threads

I What is an observable exactly?
    • Quantum Physics
Replies
3
Views
859
A Does the Zeno effect freeze all the commuting observables?
    • Quantum Physics
Replies
1
Views
703
I Simultaneous measurements of 1 observable
    • Quantum Physics
Replies
2
Views
651
I Repeated measurements on a quantum system interacting with other quantum systems
    • Quantum Physics
Replies
3
Views
852
I Confused about the spectrum of an observable
    • Quantum Physics
Replies
4
Views
679
B Special Relativity and the Measurement Problem of QM
    • Quantum Physics
Replies
7
Views
902
I About nature of superposition of states
    • Quantum Physics
4
Replies
124
Views
3K
B Quantum entanglement and simultaneity
    • Quantum Physics
Replies
4
Views
977
B Understanding the Observer in Quantum Mechanics: Debunking Common Misconceptions
    • Quantum Physics
Replies
7
Views
770
I Measurements and uncertainty principle
    • Quantum Physics
Replies
12
Views
667

Hot Threads

Recent Insights

Back
Top