Background: The study of electric and magnetic characteristics, known as electro-magneto-hydrodynamic, has significant industrial, biological, and engineering applications. Plasma, electrolytes, saltwater, and liquid metals are some examples of electro-magneto fluids. The applications of squeezing flow are getting the intention of engineers and scientists due to its extensive usage in various fields, namely, food processing, industrial processing, biomechanics, mechanical and chemical engineering, etc. By considering such advantages in mind, the electromagneto-hydrodynamic squeezing flow through a Riga plate under the effect of connective and slips boundary conditions is examined in this study. Numerical Technique: The local numerical simulations have been done with help of the Shooting method based on the Secant iterative scheme. Results: The profiles of velocity, temperature, and concentration are plotted and discussed numerically under the effects of emerging parameters. The physical quantities, namely, wall shear rate, heat transfer rate, and Sherwood number are also discussed. It is found that the slip parameters decline in the velocity and concentration fields. The radiation parameter, Biot number, and Prandtl number accelerate the temperature of the fluid. The local Nusselt number enhances via the Prandtl number and radiation parameter.