Abstract Data are used from distinct sources like Dark Energy Survey five‐year supernovae data (DES 5YR), patterns in galaxy distributions (BAO), and the rate at which the universe is expanding over time (OHD) to study the so‐called Myrzakulov gravity (MG‐I). This theory is a modified version of gravity that utilizes a special kind of connection to describe how space and time behave, including some additional features not found in Einstein's theory of general relativity. In this model, pressureless matter is considered to discuss the physical features of the model, which include a thermodynamic analysis. The model is interpreted to be in good agreement with the recent observational datasets. The model presents a continuous transition from a decelerating to an accelerating state at the low redshift. Additionally, the model is consistent with at the early as well as final stages of the evolution of the Universe for joint datasets. The model exhibits Quintessence‐like behavior in redshift and converges to at the late times as for all observations. The development of the total entropy, Hawking temperature, and the viability of the second law of thermodynamics are explored in the model according to the recent observational dataset.
Shaily et al. (Thu,) studied this question.