Israeli study finds evidence of King Hazael of Aram capturing Philistine city Gath, as in 2 Kings, using a method measuring magnetic fields in burnt mudbrick.
A scientific breakthrough will now allow for the identification of burnt materials exposed during archaeological excavations and the reconstruction of the temperature at which they were burned.
Researchers from Tel Aviv University, Hebrew University, Bar Ilan University, and Ariel University will apply this method to findings from the ancient Philistine city of Tel Tzafit, providing scientific support for the biblical verse: "Around this time Hazael king of Aram ventured out and attacked Gath, and he captured it. Appeased, Hazael went on his way and didn’t bother Jerusalem." (2 Kings 12:18).
The researchers explained that, unlike previous methods, the new technique enables the identification of specific materials, such as lime plaster, that underwent combustion even at relatively low temperatures, starting from 200 degrees Celsius. This information could have significant implications for interpreting archaeological findings.
Prof. Lipschits explained the research, stating, "Throughout the Bronze and Iron Ages, the main construction material in most regions of Israel was mudbrick. This inexpensive and readily available material was used for constructing walls in most structures, sometimes above stone foundations. Therefore, understanding the technology used to produce mudbricks is of great importance."
The new method is based on measuring the magnetic field established in the mudbrick during the burning process. Dr. Vaknin explained, "Within the material from which the mudbrick is made, there are millions of ferromagnetic minerals – that is, minerals with magnetic properties, acting like tiny 'compass needles' or small magnets. In dried mudbricks, these magnets are arranged in an almost random manner and largely cancel each other out, making the overall magnetic signal of the mudbrick weak and not very uniform. Heating to a temperature of 200 degrees Celsius and above, as in the case of burning, releases the magnetic signals of the particles and gives them freedom of movement."
Source - Ynet/X - Image - Tel Aviv University