Abstract
The study of forcing or forced exertions in amalgamating or amalgamated different featured nanoparticles and particles is important for the scientific societies. Observing live dynamics of nanoparticles and particles inside the solution is a challenging task. It is problematic to discuss amalgamating nanoparticles and particles based only on visualized dynamics. However, suitably captured microscopic images of agglomerations of nanoparticles and particles can identify different modes of forcing or forced exertions. Nanoparticles and particles just at resting positions amalgamate under resultant differences of exerting forces not only related to poles of occupied quadrants, but also related to poles of their own drawn origins. In this context, colloidal nanoparticles and particles amalgamating from directing sides experience a greater exertion of force. In amalgamation of nanoparticles and particles, the exerting force is mute, alert and functioning successively; contrarily, the energy behavior remains functioning, alert and mute successively. Amalgamations depend on the features and conceived focusing lengths of nanoparticles and particles, which are through the origins of references of their exerting forces under the resultant differences. In amalgamation of nanoparticles and particles having geometrical shapes, electrons of elongated atoms along each side deal with even exertions of force. This is not the case in nanoparticles and particles of distorted shapes. Colloidal nanoparticles and particles are the best candidates to track nature of exerting forces, and so is the case with energy behaviors, too.