Thursday, April 12, 2018

Coming to law from science


“Chief Justice French’s background in science has been useful in expressing ideas. He has suggested that identifying elements of administrative justice is “a little like the identification of ‘fundamental’ particles in physics. When pressed, they can transform one into another or cascade into one or more of the traditional grounds of review developed at common law”. [Robert French “The Rule of Law as a Many Coloured Dream Coat” (Singapore Academy of Law 20th Annual Lecture, Singapore, 18 September 2013) at 18.] It has also come in handy when cases before the Court have dealt with scientific concerns, such as D’Arcy v Myriad Genetics Inc, [[2015] HCA 35, (2015) 325 ALR 100] a case about the patentability of DNA. But I wonder whether the real insight to be obtained from what his scientific background has brought to the Chief Justice’s work is to be picked up from his reference to his gratitude that he was exposed to a “culture” of science. That may give some insight into a style of leadership that, to an outside view, seems more collaborative and cooperative, less competitive than is sometime encountered in appellate courts, perhaps because their members are often drawn from a section of the profession with a very different, more competitive culture.” (footnotes from original, inserted in square brackets)


Science is about finding out what happens, theorising about why it happens, and using that to predict what will happen. Observations usually involve measurement and consequently mathematics. From observations theories can be formulated, again they are usually mathematical. The mathematics should suggest what future observations will be. Predicting observations using mathematics is not always accurate, in which case refinements of the theory are needed. Refinements are prompted by unexpected observations.

For example, looking at magnets and wires, inconsistencies between the predictions of classical mechanics and Maxwell's equations about the forces impelling a current in a conductor, depending on whether the conductor or the magnet is moved, prompted Einstein - at least according to the way he wrote his paper - to develop what later came to be known as the special theory of relativity. The paper announcing this was called (in English translation), On the Electrodynamics of Moving Bodies. Measurements of an event made from different frames of reference (here, in the special case of reference frames moving in straight lines at constant velocities) depend on the point of view, and this in turn has implications for measurements within a single frame of reference. Using observations on the constancy of the speed of light in a vacuum, and theorising that the laws of physics are the same everywhere, Einstein borrowed mathematical techniques developed by Lorentz and showed that some refinements - albeit extremely small ones for the events we normally observe - must be made to Newton’s laws of motion. In a later addendum he showed that the same mathematics he had used also predicted how the energy in matter is proportionate to its mass.

While that sort of mathematics has proved to have great predictive value where observations are made at the macroscopic level, it is not so useful at the sub-atomic level. It seems that the smaller something is, the greater the need for a mathematics incorporating probability. At the sub-atomic level, mathematics is a less accurate predictive tool than it is for events at a larger scale. To compensate for the reduced usefulness of basic mathematics at the sub-atomic level, new forms of mathematics are devised, starting with quantum mechanics. Specialists develop new forms of mathematics to meet the needs of inquiry; Descartes combined algebra and geometry, Newton and Leibniz independently developed calculus (these are all from the Western point of view, in the East these things occurred much earlier), and today there are many forms of specialised mathematics, taking their topics far beyond a lay-person’s understanding.

Unless a mathematical refinement has predictive value for those who must use it, it is worthless to science. The same need for predictive value applies to theories that are not mathematical.But having predictive value is not the same as identifying what is real. The correct interpretation of reality using quantum mechanics has yet to be achieved. A theory may predict observations while not necessarily saying what is real.

Law is like science in that in considering a legal problem a lawyer will try to predict what a court would decide the answer should be. The facts of the legal problem are like measurements in science. But they also claim to speak of reality. Deciding what should be the legal consequence of the forensically decided reality can be like using a scientific theory to predict the result of an experiment. Where a judge has a discretion, or where judgment must be exercised by a court, there is room for a predictive theory to be developed. Those areas of law, where there are discretions to be exercised and evaluations to be made, are different from other areas where the answer to a legal problem can simply be looked up. Discretion and judicial evaluation invite analysis and development of predictive theory.

Two areas of judicial decision-making that have particularly interested me both involve evaluative judgments: deciding whether improperly obtained evidence should be ruled inadmissible, and deciding whether the evidence in a case is sufficient proof of guilt.

My study of the decision whether a court should rule improperly obtained evidence inadmissible is available at https://www.tinyurl.com/dbmadmissibility . There is a method behind my theory which has mathematical analogues: the Cartesian plane, a diagrammatic representation of results of cases, a boundary curve reflecting the rationality of the decision process. It provides a pictorial representation of results, and a method for identifying wrong decisions. Wrong decisions are like inaccurate scientific observations; they do not require rejection of an inconsistent theory unless they build up in number and have consistency among themselves to the point where it is no longer useful to call them wrong.

The sufficiency of evidence as proof of guilt is an inherently probabilistic question. Reasoning with conditional probabilities is something we all do instinctively, but mathematical analysis can reveal fallacies in intuitive thinking. Analogies from mathematical theory can indicate the probative value of items of evidence and the effect of those on the probability that a defendant is guilty. Law does not require mathematical precision, but mathematical method can be a useful tool. I illustrate this in my draft paper (draft because I like to have the opportunity to keep these papers up to date) available at https://tinyurl.com/dbmpropensity .

 Those are illustrations of some of the ways in which a background in science can be of assistance to a lawyer.

Saturday, April 07, 2018

Kalbasi v Western Australia: analysing conviction appeals without Weiss

In Kalbasi v Western Australia [2018] HCA 7 the Court split 4-3 on whether Mr Kalbasi’s conviction was a substantial miscarriage of justice.

In trying to answer this question the judges used a notoriously difficult decision of the Court, Weiss v The Queen (2005) 224 CLR 300;  [2005] HCA 81. The differences in the conclusions reached by the judges suggests that Weiss doesn’t work.

In New Zealand we no longer struggle to decide whether a miscarriage of justice is “substantial”. The reformed law is in s 232 of the Criminal Procedure Act 2011.

True to say, Weiss has some lingering influence here, by way of applying Matenga v R [2009] NZSC 18, as can be seen in Wiley v R [2016] NZCA 28 at [18], [49], [51], but that may be only a clinging-to-the-wreckage instinct which the Supreme Court could well correct when it decides the appeals in Z v R (the leave decision was [2017] NZSC 172, 17 November 2017, not available online.)

How would Kalbasi have been decided under s 232?

Kalbasi is a wonderful example of a plethora of appeal issues arising from relatively straightforward facts. Jeremy Gans discusses these at the HCA blog.

I think that, applying s 232 here, we would agree with the conclusion reached by the majority in Kalbasi.

Was the trial unfair (s 232(4)(b))? At common law a trial is fair if the law was accurately applied to facts that had been determined impartially. Impartially includes without bias and without apparent bias, and requires that the fact-finder has given appropriate weight to the various items of evidence and has reasoned correctly.

Although there was an error of law in Kalbasi – everyone thought the presumption of purpose of supply applied, but it didn’t because the charge was only one of attempting to have possession (of methamphetamine) for the purpose of supply. It was an attempt because the police had substituted salt for the drug in the package. The error was immaterial for two reasons: the defence that was relied on (absence of proof of possession) made the subsequent issue of purpose irrelevant, and the quantity of the drug had been about 2000 times that at which the presumption is triggered, so there would have been, without a presumption, a strong factual inference for the defendant to raise a doubt about if that purpose had been contested.

So as a practical matter, the error of law didn’t matter. In some trials it is necessary for all defences to be considered, even those on which the defendant has not relied, but in this case the facts made a contest on the issue of purpose hopeless for the defendant. The error of law was inconsequential on these facts.

Were the facts determined impartially? The issue on possession was whether the defendant had exercised a power of control over what he thought was the drug. Control was properly explained to the jury. The defence was that the defendant did not have control because he was just present to take a small quantity of the drug for his own use. Usually, this would be a defence offered to negate the allegation of purpose of supply. But in the circumstances here the tactical decision to challenge possession rather than purpose was not unreasonable.

The defendant did not give evidence, and there was no criticism of that choice. It left the issue of possession, and more precisely of control, as a matter of inference. There were circumstances that supported the conclusion that Mr Kalbasi had a greater interest than merely obtaining a small quantity of the drug for his own use.

Given that the trial was fair, was there a real risk that the outcome of the trial had been affected by any error, irregularity or occurrence (s 232(4)(a))?

The judge had used a library book analogy to explain the difference between ownership and possession. The same analogy could have more pertinently illustrated the difference between custody and control. If you are the only visitor in a small library, and the librarian leaves the room briefly, you may be said to have custody of the books, but you would only have control of a book you picked out of the shelves. Control may be temporary and conditional on return, and it may be shared, and the evidence was that Mr Kilbasi had worn a latex glove and assisted with cutting or inspecting what he thought was the drug. So even if the library book analogy had not been used in the most apposite way, the jury would not have been misled about what control is.


There was no real risk that the outcome of the trial had been affected by an error, and the conviction was not a miscarriage of justice.

Saturday, March 24, 2018

When judges get nasty

It’s good to see the Chief Justice taking an interest in judicial bullying of counsel.

I imagine there have been judicial bullies as long as there have been courts. Bullies can usually be quite nice people, but under pressure the character flaw is revealed.

My own method for dealing with bullying judges is rather unsubtle, as this example illustrates.


I am pleased to report the whole thing was settled amicably, the judge saying that we both seemed to be having a bad day at the office.

Thursday, March 01, 2018

Rights, freedoms, and elderly children

In today’s decision Attorney-General v Smith [2018] NZCA 24 the Court of Appeal observed at [47] that

“... any rights analysis must begin with the presumption that Mr Smith [a sentenced prisoner] has the common law right to wear a wig if he wishes, simply because it is not illegal to do so.”

Sometimes cases are brought on grounds which obscure basic issues. There can be few points more basic in this context than the rights of people to do things that are not unlawful. Instead of relying on that right, it seems that this case was brought alleging a breach of the New Zealand Bill of Rights Act 1990, s 14. Arguments therefore were diverted to the issues whether wig-wearing is an “expression” within the terms of that section.

The High Court had held that it is, but the Court of Appeal overruled that. In that sense, Mr Smith lost the appeal. But it is wrong to say, as our news media are currently saying, that “Murderer loses legal right to wear wig in prison”, and “Wig-wearing murderer Phillip John Smith has no rights to hairpiece, court rules”.

Indeed, as things are between the parties, the dispute is settled and the issue is moot, and the Court of Appeal only issued a judgment because the issue of the engagement of s 14 “raises an important question with potential application in other cases” (at [26]).


You may wonder, as I do, why Mr Smith should want to wear a wig, given that mature men with full heads of hair look like elderly children.