Bridge Constructor: Medieval (2014)

by Nish
7 minutes read

Summary

Bridge Constructor: Medieval: A Triumph of Medieval Engineering

Bridge Constructor: Medieval is the successor to the worldwide hit Bridge Constructor, and it takes players back to the time of knights and castles. Players must build sturdy bridges to supply their city with provisions, or cunningly constructed bridges that collapse under the weight of attacking troops, sending the horde of enemies into the abyss below.

The game features 40 brand new levels, set in a variety of medieval environments, from lush forests to treacherous mountains. Players must use a variety of materials to build their bridges, including wood, heavy wood, stone, and ropes. Each material has its own unique properties, and players must carefully consider which materials to use in each situation.

In addition to the traditional bridge-building levels, Bridge Constructor: Medieval also features two new game modes:

  • Siege mode: In this mode, players must build bridges that can withstand the bombardment of enemy catapults.
  • Collapse mode: In this mode, players must build bridges that collapse under the load of enemy units, sending as many of them as possible into the abyss.

Bridge Constructor: Medieval is a challenging and rewarding game that will appeal to fans of strategy games, construction games, and medieval history. The game’s innovative game modes and realistic physics engine make it a truly unique experience.

Building Bridges in the Middle Ages

The goal of Bridge Constructor: Medieval is to build bridges that are strong enough to withstand the weight of traffic, but also flexible enough to adapt to the changing terrain. Players must carefully consider the materials they use, the design of their bridges, and the placement of their supports.

The game features a variety of different materials that can be used to build bridges, including wood, heavy wood, stone, and ropes. Each material has its own unique properties, and players must carefully consider which materials to use in each situation.

  • Wood: Wood is the most basic material available, and it is relatively easy to work with. However, wood is also the weakest material, and it is not suitable for building bridges that must承受heavy loads.
  • Heavy wood: Heavy wood is a more durable material than wood, and it can be used to build bridges that can withstand heavier loads. However, heavy wood is also more difficult to work with, and it is more expensive than wood.
  • Stone: Stone is the strongest material available, and it can be used to build bridges that can withstand the heaviest loads. However, stone is also the most difficult material to work with, and it is the most expensive.
  • Ropes: Ropes can be used to add tension to bridges, which can help to make them more stable. Ropes are also relatively inexpensive, and they are easy to work with.

In addition to the materials they use, players must also carefully consider the design of their bridges. The shape of the bridge, the number of supports, and the placement of the supports will all affect the strength and stability of the bridge.

  • The shape of the bridge: The shape of the bridge will affect how the weight of traffic is distributed across the bridge. A simple beam bridge is the easiest to build, but it is also the weakest. A truss bridge is more complex to build, but it is also stronger than a beam bridge.
  • The number of supports: The number of supports will affect how much weight the bridge can withstand. A bridge with more supports will be stronger than a bridge with fewer supports.
  • The placement of the supports: The placement of the supports will affect how the weight of traffic is distributed across the bridge. Supports should be placed at the points where the bridge is most likely to experience stress.

Once players have chosen the materials and designed their bridge, they must then place the supports. The supports will determine the shape of the bridge and the amount of weight that it can withstand. Supports can be placed in a variety of different configurations, and players must carefully consider the best configuration for each situation.

The Physics of Bridge Building

Bridge Constructor: Medieval uses a realistic physics engine to simulate the behavior of bridges. This means that the bridges that players build will behave in a realistic manner, and they will be subject to the laws of physics.

The following are some of the physical forces that will affect the bridges that players build:

  • Gravity: Gravity will pull down on the bridge, and it will cause the bridge to sag. The amount of sag will depend on the weight of the bridge and the strength of the materials used to build it.
  • Tension: Tension is the force that is created when a rope or cable is pulled tight. Tension can be used to help stabilize bridges, and it can also be used to create suspension bridges.
  • Compression: Compression is the force that is created when a material is squeezed. Compression can be used to strengthen bridges, and it can also be used to create arches.

Players must carefully consider the physical forces that will affect their bridges, and they must design their bridges accordingly. If a bridge is not properly designed, it will collapse under the weight of traffic or the force of the wind.

Conclusion

Bridge Constructor: Medieval is a challenging and rewarding game that will appeal to fans of strategy games, construction games, and medieval history. The game’s innovative game modes and realistic physics engine make it a truly unique experience.

Whether you are a seasoned bridge builder or a complete novice, Bridge Constructor: Medieval is sure to provide you with hours of enjoyment. So what are you waiting for? Start building your bridges today!

Review Score

8.5/10

Art

Cover Art

Screenshots

This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Accept Read More