Rama the Commander: War For The Future
Rama Technology Quantum Effect
Rama managed to get out of the turbine and then he detonated an entire time bomb that had been installed in the tunnel. The tunnel was blown to pieces within 200 meters below the base of Kali Progo. The explosion and destruction of the tunnel, which is very far from the base of the times, does not cause significant interference to the water flow conditions of Kali Progo. Similarly, the Ancol Dam is connected to the tunnel water turbine.
Rama successfully completes his first mission to eliminate one of Ki Sabrang's ghost allies, Lelepan. But from the implementation of Rama's first mission, Rama felt that he still needed an additional information and weapons or advanced technology that could be requested at any time and wherever the location.
Therefore Ratna advised Rama to immediately launch the existence of remote sensing satellites in space. This is to help Ratna in collecting data from various locations around the world that will also be needed by Rama. The satellite can be used as:
1. Earth Observer Satellites: Earth observation satellites are often used to collect data on atmospheric and environmental conditions. This technology can be used to monitor wildfires, air pollution, and climate change. Earth observation satellites can also monitor ocean conditions and provide real-time data on the ocean environment and are used to obtain environmental analysis materials and predict natural disaster risk. This can help Rama to take precautions and reduce the risk of natural disasters.
2. Spy Satellites: Spy satellites are used to monitor the activity of enemies or other countries. This technology can be used to detect military movements, nuclear launches, or activities *******. Spy satellites could also be used to help Ratna provide access to information and control to a variety of systems, including access to a network of remotely-controlled drones.
3. Communication Satellites: Communication satellites are used to transmit voice, video, and data signals from one place to another around the world. This technology can be used to provide mobile phone services, satellite television, or the internet. Communication satellites can also be used to communicate with other planets or transmit messages around the world.
4. Surveillance Satellites: Surveillance satellites are used to take detailed images of the surface of a planet or other celestial object. The technology can be used to map planets, identify geological structures, or collect data about asteroids or comets. These reconnaissance satellites can also be used to map alien planets, such as Mars, or identify alien activity.
5. Anti-asteroid Satellites: Anti-asteroid satellites are used to destroy asteroids or other celestial bodies that are dangerous to Earth. This technology can be used to prevent natural disasters caused by the collision of asteroids with Earth. These anti-asteroid satellites can also be used to destroy alien craft or meteors that threaten Earth.
The satellite can also be used as Rama's arsenal in space, and can be accessed by Ratna whenever and wherever needed by Rama.
Upon Rama's return from the first mission, Rama immediately invited Ratna seriously to build a satellite in space as soon as possible. With the funds already in place at Bank Niagara, Rama thought it was enough to build a satellite. Only Rama is still lay with satellite technology from the beginning of its manufacture until its operation.
Rama: "Ratna, may I know about the stages of making satellites so that they can operate in space? "
Ratna: "Good Rama, I will explain briefly so that you can understand.
Satellite creation is a complex process that involves many stages and preparations before the satellite can be successfully launched into orbit. Here are the stages of satellite launch in general:
Design: The first stage in the manufacture of satellites is design. During this stage, planning is carried out to determine how the shape, size, and specifications of the satellite.
Construction: After the design is completed, the necessary materials and electronic components are selected and purchased.
Some of the important components needed to build a satellite, among others:
solar cells are used to convert solar energy into electricity, which is needed to operate satellites.
batteries: used to store the energy produced by solar cells, and ensure that satellites remain in operation where sunlight is out of reach.
antennas: serve as senders and receivers of signals, allowing communication with a controlling center on Earth.
sensors collect data and information about the satellite's surroundings, such as temperature, humidity, and air pressure.
computer processor: functions as the brain of the satellite, controlling all the necessary operations and tasks.
transceiver - allows satellites to communicate with users around the world.
gyroscope - helps maintain the orientation and stability of the satellite during space flight.
thermal insulation: used to keep the satellite temperature stable, especially in very cold environments.
- Casing: protects all electronic components from radiation and environmental pressure during flying in space.
In addition, to build satellites also need various types of materials, such as: light and rust-resistant metals, optical glass, special composites, and thermal insulation materials. All such electronic materials and components must be rigorously tested to ensure the reliability and safety of the satellite before it is launched into space.
Once all the components are assembled, the team begins the process of assembling/physical construction of the satellite begins. This includes assembly of electronic systems, communication systems, control systems, and battery systems.
3. Testing: Once completed, the satellite will go through a series of tests to ensure that everything is working properly. These tests include thermal testing, mechanical testing, vibration testing, and more.
Launch: Once tested, the satellite is ready for launch. Satellites are usually launched using carrier rockets, such as SpaceX's Falcon rocket or United Launch Alliance's Atlas rocket. Once the rocket reaches orbit, the satellite will be released into space.
6. Operation: Once it reaches orbit, the satellite must be operated correctly. This includes further testing to ensure that everything is working properly, and monitoring from the ground to ensure that satellites continue to work properly.
In general, building a satellite can take between 2 and 5 years, depending on these factors. This is because satellites must be made very carefully and carefully, and well tested before being launched into space. "
Rama: "Means if you want to make a satellite at the earliest 2 years? Then the mission requested by Rama 2065 will not be achieved! " (the tone is rather high tends to ngeyel)
Ratna: "Stranquil Rama. Everything has been prepared by Rama 2065. There is already a satellite made in 2065 that is ready to be launched waiting for your instructions! "
Ram: " Really? Saved where? "
Ratna: "It's in the right pocket of Rama's Ontokusumo vest. "
Rama was confused as to what Ratna was saying. Suddenly Ontokusumo vest now has a pocket and inside there is a small object like a toy that was later taken by Rama. In plain sight, it was indeed a satellite toy.
Rama: "Is this really a satellite to orbit, Ratna? "
Ratna: "Right Rama, it's a satellite. You just take it to space, then it is orbited at the position of 113° BT (East Longitude), which is above the equator and is at an altitude of about 35,786 km from the surface of the earth, then normalized its size. "
Rama: "How can a satellite be this small size, Ratna? "
Ratna: "Yes Rama, because it is related to the quantum effects of nanoparticles. Ontokusumo vests, laser weapons, liquid nitrogen atomizers, satellites and weaponry and equipment prepared by Rama 2065 are already using Nano particle technology, Rama."
Nano particles are subatomic particles that allow users to control their physical size by enlarging or shrinking themselves. These particles work by changing the distance between particles in an object, thus changing the size of the object without changing the mass of the object.
When used, nanoparticles allow users to change their size by shrinking or enlarging themselves. In addition, these particles also allow users to change the size of other objects, including controlling the object.
The concepts of magnification and shrinkage in physics and quantum mechanics are concerned with the properties of subatomic particles and the concept of particle waves. This concept is known as quantum effects.
The quantum effect explains that subatomic particles, such as electrons and photons, can have wave and particle properties simultaneously. In the context of magnification and diminution, the concept states that an object can change size due to the wave and particle nature of the particles that make it up.
In quantum mechanics, there are two ways to change the size of an object: through tunel effects and superposition. The tunel effect occurs when a subatomic particle breaks through a barrier that would otherwise be impenetrable under classical law. In terms of magnification and shrinkage, the tunel effect can be utilized to change the size of objects.
Superposition is the phenomenon when a subatomic particle can exist in two or more states simultaneously. In terms of magnification and shrinkage, superposition can be used to make an object larger or smaller by combining the wave properties of its constituent particles.
Rama begins to understand the nanoparticles that can make quantum effects on his equipment and weaponry. Rama was amazed by the technological progress in 2065.
Rama then planned to orbit Ratna's satellite, "Ratna, when should we launch this satellite into space? "
Ratna: "The exact time to orbit a satellite depends on the purpose of the satellite mission and the desired orbit. There are several factors to consider when choosing a satellite launch time, such as the position of the Earth, the position of the sun, as well as the direction and speed of Earth's rotation.
Generally, satellite launches are conducted when the Earth is at the right position in its orbit, making it easier for the rocket to reach the desired orbit using the Earth's gravitational momentum. In addition, the time of launch must also consider the position and distance between the launch station and the destination location of the satellite orbit.
In addition to these factors, the launch time is also influenced by weather factors and atmospheric conditions around the launch station. Poor weather conditions, such as strong winds, rain, or storms, can affect launch safety and result in launch delays.
Taking these factors into account, I suggest Rama's night at 20:30. "
Rama: "Ok Ratna, prepare all the equipment yes. We launch Ratna's satellite tonight at 20:30."
Ratna: "Good Ramah. "
Rama spent the afternoon with a break to prepare himself before the launch hours of the satellite. It just so happened that the weather was cloudy day and the breeze - sepoi, enough support for Rama to rest.
20:30 was not a long time when Rama used to rest. Now Rama has prepared himself to launch a satellite into space. The weather was cloudy last day, turning bright at night.
Rama: "Ratna, activate the mode of flying into space to orbit the Ratna satellite! "
Ratna: "Okay Rama, the flying mode is activated. The geostationary orbit target position of Ratna satellite was confirmed at 113° BT (East Longitude), which is above the equator and is at an altitude of about 35,786 km from the Earth's surface. "
Rama also began flying high into space in accordance with the target geostationary orbit that has been set by Ratna. Air turbulence hit Rama's body, and oxygen depletion and body cooling have also begun to occur. But Ratna had anticipated this by preparing adequate equipment for oxygen supply in Rama's helmet and heating Ontokusumo vest so that Rama's body did not experience hypothermia.
With a speed of 7,000 km/h, Rama was finally able to reach the target location of the designated geostationary orbit. Rama takes out a mini-satellite and then asks Ratna to normalize its size. In 5 seconds, though, the size of the miniature satellite that Rama brought changed from the previous size of 3 cm x 3 cm x 6 cm with a weight of 5 kg has now become a size of 3 meters x 3 meters x 6 meters with weight 4.7 tons.
Rama: "Ratna, the satellite is already orbiting, try to check with your system, is the satellite already operating properly? "
Ratna: "Good Rama, 100% satellite operating normally. "
Rama: "Ok, let's go back home. We check the satellite's operation from home. I want to try a satellite to deliver a drone weapon to the house! "
Ratna: "Good Ramah! "
Rama also went down from space after assessing the orbiting of the Ratna satellite was successful. Now Rama intends to check satellite operations from the surface of the earth, namely from his home.
