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6 Mesmerizing Examples Of Stickman Games


Stickman Hook is a popular mobile game that combines simplicity, addictiveness, and physics-based gameplay. Released in 2018 by Madbox, stickman.pro this game has amassed millions of downloads across various platforms. It offers an interactive and entertaining experience while also providing a unique opportunity to explore fundamental principles of physics. In this article, we delve into the physics behind Stickman Hook, examining concepts such as gravitational force, momentum, and elasticity.

Gravitational Force

One of the key elements in Stickman Hook is the force of gravity. The stickman character is constantly subjected to this force, causing him to fall or swing from one point to another. According to Newton’s law of universal gravitation, every particle in the universe attracts every other particle with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers.

In the game, stickman.pro the gravity acting on the stickman is significantly stronger than that of reality, creating a more challenging and dynamic gameplay experience. This exaggerated gravity increases the stickman’s acceleration, leading to faster swinging and more thrilling jumps.


Swinging from one point to another requires an understanding of momentum. Momentum is defined as the product of an object’s mass and stickman games its velocity. In Stickman Hook, the stickman gains momentum as he swings from one point to the next, allowing him to perform higher jumps or swing across longer distances.

Maintaining momentum is crucial in the game, as it enables the stickman to overcome obstacles and reach the end goal successfully. Players must time their jumps and swings accurately to optimize their momentum and propel the stickman further.


The stickman’s ability to stretch and deform adds an element of elasticity to the game. Elasticity refers to a material’s ability to regain its original shape after being stretched or deformed. In Stickman Hook, the stickman’s body is modeled as an elastic object, allowing it to stretch and adapt to the swinging motions.

The elasticity of the stickman’s body affects the precision and control players have over the swinging motion. A more elastic stickman will rebound with greater force upon impact, leading to longer and more dynamic swings. Understanding and manipulating elasticity can provide a significant advantage in navigating through challenging levels.


Stickman Hook brilliantly combines entertainment and physics, offering players an engaging and addictive experience. By exploring concepts such as gravitational force, momentum, and elasticity, players gain an intuitive understanding of these fundamental physics principles. The game’s exaggerated physics mechanics create a unique and challenging gameplay environment, ensuring players are constantly engaged.

Stickman Hook not only provides entertainment but also serves as a medium for learning and exploring the basic laws of physics. Its simplicity makes it accessible to players of all ages, fostering an interest in science in a fun and interactive way. Whether you are swinging through vibrant environments or analyzing the physics behind it, Stickman Hook offers an experience that is both enjoyable and educational.

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