Satellites are used for communication, navigation and surveillance purposes in our daily life. They’re also important to the military and space research. Most large satellites are made of metal and weigh thousands of pounds. However, some smaller satellites are also made of metal and weigh tens of pounds. These include cubesat, nanosats and ultralight Satellite. Satellites have many different classes based on size, except for the class that is defined by size in cubic units. Cubesat satellites are a class of small satellites that are shaped like a cube. They’re popular due to their widespread use and affordability. Most large space projects use them for testing various technologies and applications. They’re also good for surveillance, many countries especially developing countries use cubesats for agricultural experiments, satellite mapping and exploration purposes. They can provide valuable data to the world without costing them a penny. Sending a cubesat into space is much easier than sending a regular satellite. Cube satellites weigh less than 100 pounds and have a size of 10 cm per side. They’re made from many different types of materials such as metal, plastic and composite materials. You can even make your own with common materials buy purchasing a cubesat kit. They’re easy to control with direct thrust engines or solar/thermal power sources. This makes them perfect for military applications such as missile targeting or spy missions. According to the CubeSat Design Specification, CubeSats are exclusively scalable along one axis, making them 0.5U, 1U, 1.5U, 2U, or 3U in size, depending on the number of linked units. As of the end of 2015, practically all CubeSats that have been produced and launched were of one of the standard sizes. The cubesat kit by KSF Space Foundation was made to make the assembling and coding much easier than traditional way in building a cubesat, the cubesat kit by KSF Space Foundation is made and designed for beginners and schools or universities who are developing their 1st cubesat / nanosatellite mission, the module is ready to fly to sub-orbital flight and was tested in microgravity in many similar space missions. The cost of cubesat kit by KSF Space considered the world’s cheapest kit out there. One big advantage of cubesats over regular satellites is their low cost. It’s much cheaper to launch a smaller satellite than a larger one. Plus, smaller cubesats can be deployed using fewer resources- making them ideal for military applications in less developed countries. Developed nations can afford to spend more money on launching cubesats vs regular satellites. This allows them to test new technology before deploying it on large expensive space projects. There’s no limit to the uses cubesats can have in our daily life. Smaller ones are great for remote applications such as agriculture or education. Some cubesats are also used for communication purposes such as global positioning systems. Regular users can also access cubesats from earth via amateur radio stations or scientific research centers. These are great ways to access remote data sources without having an internet connection. Cubesats are quickly becoming the go-to class for small satellite deployment due to their versatility and low cost per base capacity. Governments worldwide use them for military purposes, while amateurs and scientific researchers find them useful in their everyday life styles as well. The low cost makes it easy to justify building several small satellites for different uses, which increases their effectiveness on many levels beyond just military deployment efforts.