This study explores the enhancement of virtual museum experiences by developing a haptic glove system, aimed at providing a realistic interaction with virtual artifacts. Addressing the gap in haptic technology within virtual museums, we developed a glove integrating ERM motors and a vibration actuator. These components, precisely controlled by an Arduino Uno microcontroller, deliver distinct vibration patterns, simulating the textures of various materials such as ceramic and iron. A comprehensive evaluation involving diverse participants highlighted the glove"s effectiveness in improving user engagement and immersion in VR, as evidenced by high scores in control, responsiveness, and overall satisfaction. The study demonstrates the potential of haptic feedback in virtual reality applications and indicates the necessity of integrating multisensory experiences for more authentic virtual interactions.