Objective: To design and develop a theoretical time machine by harnessing hydraulic systems, energy conversion, and advanced physics principles.
-
Batteries
- Type: High-capacity lithium-ion or lithium-polymer
- Capacity: 24,000 to 30,000 mAh for sustained operation
- Management System: Battery Management System (BMS) for monitoring charge, temperature, and health.
-
Inventory System
- Functionality: Tracks materials (water, hydrogen, oxygen) and energy states (battery charge, generated energy)
- Area Requirement: Approximately 1 m²
-
Hydraulic Press
- Small Piston:
- Diameter: 5 cm
- Input Force: 300 N
- Large Piston:
- Diameter: Approximately 79.3 cm
- Expected Output Force: 294,117.6 N (effective force ~ 285,000 N considering friction)
- Coefficient of Friction: 0.03
- Small Piston:
-
Combustion Chamber
- Materials: Heat-resistant alloys (e.g., stainless steel or titanium)
- Area Requirement: Approximately 0.5 m²
-
Heat-to-Energy Generator
- Type: Thermoelectric generators (TEGs) or steam turbines
- Efficiency: 85% conversion from heat to electricity
- Area Requirement: Approximately 0.5 m²
-
Force-to-Electricity Generator
- Type: Brushless DC generator
- Efficiency: 90% conversion from mechanical energy to electrical energy
- Area Requirement: Approximately 0.3 m²
-
Electrolysis Chamber
- Type: Proton Exchange Membrane (PEM) electrolyzer
- Efficiency: 70% for hydrogen production
- Area Requirement: Approximately 0.4 m²
The project initiates by using electricity from the battery to apply a force to the hydraulic press, generating significantly greater output force. This mechanical energy converts to electricity, powering the electrolysis process to produce hydrogen and oxygen.
These gases are combusted in the combustion chamber, generating heat that is converted back into electricity using a heat-to-energy generator, creating a self-sustaining energy cycle.
This project integrates principles of relativity to examine the relationship between velocity and time. By controlling the generated force and acceleration, it aims to manipulate velocity according to the time dilation formula, facilitating theoretical exploration of time travel.
- Maximize Energy Efficiency: Enhance hydraulic system and energy conversion processes.
- Innovative Design Modifications: Improve the performance of the hydraulic press.
- Theoretical Exploration: Understand the implications of velocity control on time travel.
To achieve project objectives, the following steps will be taken:
- Prototyping and Testing: Optimize performance of each component.
- Engineering Simulation: Model the system to identify improvements.
- Research: Investigate advanced materials and technologies to boost efficiency and safety.
This project stands at the intersection of engineering, energy systems, and theoretical physics, aspiring to expand our understanding of time and energy manipulation. Through advanced technologies and innovative designs, it aims to pave the way for future explorations into time travel.
- If velocity is comparable with light speed, then you will go to future
- If velocity is equal to light speed, then time is stopped for everyone except for you
- If velocity is more than light speed, then you may go to past