Contingency is a term that occurs in philosophical discourse as well as in theology in a number of contexts and with a number of meanings. In its modern sense the English term contingency refers to events, processes, or properties that may occur, but are not certain to occur; or that have, but might not have, occurred, because they depend on factors beyond our knowledge or which themselves are contingent. Generally speaking, it refers to events, objects, and properties that could be otherwise, that do not have to be as they are, and that do not have to be at all, and for whose existence we cannot give a sufficient cause. Thus contingency covers a whole range of meanings, including “not necessary,” “by chance,” “random,” and “unpredictable.”
In the discourse on science, the debate pivots on questions of determinism vs. indeterminism in physics (especially in quantum physics and in systems theory), on the contingent character of the cosmos and its fundamental physical laws, and on the question of whether the development of evolution and the actual forms of life that result from it are merely coincidental in biology. Some have referred to the first form of contingency as nomological and to the second as local contingency (Robert J. Russell, “Contingency in Physics and Cosmology: A Critique of the Theology of Wolfhart Pannenberg,” Zygon 23.1 ). The alternative is between physical determinism (all events necessarily follow from prior initial conditions, so that contingency only refers to a lack of knowledge) and indeterminism (some events are not determined by prior conditions, hence contingency is an ontological fact). In religion and theology, contingency often marks the fundamental difference between the Creator and creation. It is used in ontological and cosmological proofs of the existence of God in the sense that all created beings cannot account for their own existence, but—in their contingency—point to a Creator, who is not contingent, but the necessary ground of his or her own being. However, it is disputed whether such a conclusion is valid or itself contingent. Another divide is between those who argue for total divine predestination (God determines everything that happens; again contingency is only a human category regarding insufficient knowledge and insight) and those who argue that God leaves some things to chance or to being determined autonomously by created entities. A consequence of the latter view seems to be that God cannot have sufficient fore-knowledge with regard to the process of creation so that God’s omniscience and omnipotence seem in danger. On the other hand, the option of total predestination faces the problem that in its view the Creator seems to be responsible for everything, including all evil.
Duane H. Larson
Were Luther to have lived another two decades, he might have been surprised even so early on to be informed that he positively influenced the rise of natural science. One can readily cite many Luther quotes that would cast him as anti-science; decontextualized quoting readily constructs such caricatures. But the truth of the matter is quite otherwise.
Consideration of Luther and Luther’s protégés and their philosophical-historical contexts reveals their positive regard for science. This is explicit in Luther’s immediate heirs like Melanchthon and Andreas Osiander. Though they differed in their opinions about the work of Copernicus, both respected him and the discipline he practiced. Luther’s influence carried beyond his immediate disciples through Johannes Kepler into the 17th century. The Irish-Anglican chemist and theologian Robert Boyle, for example, was significantly influenced by the Reformation principle of God’s sovereignty. In turn, Boyle strongly influenced Isaac Newton. But Lutheran support for the natural sciences had one major qualification. When “freed science” appeared to speculate more on God’s action than describe the visible character of natural phenomena, Luther saw overreaching ambition.
Such are the outlines of a historical approach of Luther’s influence on the beginning of the scientific revolution. Other Lutheran theological themes contributed to natural science’s robustness. In addition to a focus on God’s sovereignty—and so the doctrine of justification by grace through faith—these themes include (1) the nature of biblical authority, (2) the “realistic” epistemology of the theology of the cross, and (3) sacramentology.