Worldwide, hypertension is a common ailment that plays a major role in cardiovascular illnesses. An abundance of bioactive chemicals with potential therapeutic applications can be found in traditional medicinal plants. Many cultures have long utilised common fig, Ficus carica, for its therapeutic benefits. The purpose of this work is to assess, via in silico techniques, the antihypertensive potential of bioactive chemicals derived from Ficus carica. Worldwide, hypertension is a common ailment that plays a major role in cardiovascular illnesses. An abundance of bioactive chemicals with potential therapeutic applications can be found in traditional medicinal plants. Many cultures have long utilised common fig, Ficus carica, for its therapeutic benefits. The purpose of this work is to assess, via in silico techniques, the antihypertensive potential of bioactive chemicals derived from Ficus carica. In this work, bioactive chemicals found in Ficus carica were identified and analysed using computational approaches. Angiotensin-converting enzyme (ACE), Endothelin-1, Renin, Carbonic anhydrase-2 are important enzymes involved in blood pressure regulation. Molecular docking simulations were utilized to assess how well these drugs bind to specific enzymes. The objective this research is to explore the antihypertensive Effect of Ficus carica. Various computational software tools were employed to predict and evaluate the bioactive components and their mechanisms of action in this plant.