The next day, they began working. James first examined the entire sector. To his surprise, there were three planets in orbit, each with shipyards for building starships. Additionally, there were about seven enormous stations dedicated to ship production. On the surface, there were stations for transportation and weapon manufacturing.

With the help of elves and robots, he quickly brought all the stations into working order."

NanoShield X1

Elysium Barrier

Description of Operation:

The energy shield made from nanotechnology operates based on several key principles:

Nanomaterials:

The shield is made from complex nanomaterials that form a lightweight yet incredibly strong lattice. These materials provide high levels of strength with minimal weight.

Self-Healing Properties:

The nanoparticles in the shield have the ability to self-heal. When damaged, they can redistribute and restore the structure, allowing the shield to maintain its functionality even after exposure to external factors.

Energy Field:

The shield generates an energy field powered by advanced energy sources. This field can absorb and deflect strikes from various types of threats, such as high-energy laser beams, meteoroids, or ballistic weapons

Adaptive Properties:

The energy shield utilizes machine learning algorithms to adapt to different types of attacks. It can use data from sensors and previous experiences to optimize its defense, increasing density and resilience in response to specific threats.

Energy Conductivity:

The nanotechnology structure of the shield can efficiently conduct and distribute energy, minimizing the risk of overheating and damage. This makes it more reliable and durable for prolonged use.

Environmental Sustainability:

The materials used to create the shield can be sourced from eco-friendly resources and do not lead to pollution, making it safe for the environment.

Conclusion:

The energy shield made from nanotechnology combines advanced scientific achievements with sustainability, providing reliable protection for a planet or spacecraft while remaining lightweight and highly efficient. For example, "Aegis NanoField" aims to advance protection to a new level, ensuring deep integration between protective technologies and environmental sustainability

Gravity Defense Net

1. Support System:

The second-level gravitational shield works in conjunction with the first level of protection (e.g., an energy or physical shield). It provides an additional barrier that can neutralize physical threats that have penetrated the primary defense.

2. Additional Gravitational Protection:

The shield generates powerful gravitational fields that can deflect incoming objects and slow down their speed, reducing the impact force upon collision with the main protective systems.

3. Threat Elimination:

If the first line of defense is breached, the gravitational shield can activate functions aimed at neutralizing threats near the object. These functions may include altering the behavior of projectiles or other objects to change their trajectory.

4. Multi-Level Adaptation:

The gravitational shield can adapt based on the type of threat, ensuring optimal protection. For example, when detecting large objects such as meteoroids or projectiles, the shield can strengthen its gravitational fields to increase their impact on incoming threats

5. Integration with Other Systems

The gravitational shield easily integrates with other protective technologies such as drones, early warning systems, or powerful energy fields, creating a networked defense with multiple layers.

6. Resistance to Attacks:

The gravitational shield also protects against energy attacks by redirecting shockwaves and lasers to safe directions, preventing damage to the main object or planet.

Threat Detection System

The second-level gravitational shield is integrated with a powerful threat detection system that provides early warning of potential dangers. Here's how it works:

1. Environmental Monitoring:

The system uses multiple sensors, including radar, infrared, and optical, to track objects nearby, allowing for timely identification of threats such as hostile ships, meteoroids, or missiles.

2. Data Analysis:

Using artificial intelligence algorithms, the system can quickly analyze data, assessing the type and severity of the threat. This enables it to determine when action needs to be taken.

3. Automated Warning:

Upon detecting danger, the system generates an automatic warning signaling the need to activate defense measures. This can include visual or audio alerts on control panels, as well as notifications for the crew or operator.

4. Instant Shield Activation:

In response to the detection system's signal, the shield is instantly activated, creating a protective barrier. This ensures that there are minimal delays between threat detection and the activation of defense.

5. Combat Readiness of Turbolasers:

Based on the received data about the nature of the threat, turbolasers are placed on combat readiness. They are calibrated for precise targeting of incoming objects or to support the shield.

6. Interceptor Aviation:

The system also initiates the launch of interceptor drones or starfighter escorts to intercept the threat. These craft automatically prepare for combat, racing to the anticipated attack location and providing an additional level of defense.

Names for Protective Modules: Orbital Guardian Units (OGU)

1. Surveillance and Monitoring:

Protective modules are designed for constant surveillance of the space around the planet. They are equipped with various sensors (radar, infrared, and optical systems) to identify threats at early stages.

2. Data Exchange:

The modules can exchange data and coordinates with the planetary shield, ensuring coordinated responses to potential threats. This will minimize information processing time and speed up decision-making.

3. Activation of Defense:

Upon detecting a threat, the satellites can automatically activate associated defense systems, including the gravitational shield, turbolasers, and other modules, creating a multi-layered defense.

4. Object Identification:

The satellites can use recognition technologies to distinguish between friendly and hostile objects, helping to prevent false alarms and unauthorized attacks.

5. Support for Drones:

In case of a threat detection, the protective modules may launch counter-drone or starfighter operations to intercept hostile objects. These drones can be networked, allowing them to coordinate actions with ground and orbital systems.

6. Backup Power Systems:

Each module should have its own backup power sources and communication systems to ensure operation even if the planet's primary systems fail.

7. Adaptive Configuration:

The protective modules can adapt to changing surrounding conditions and threats, adjusting their defense strategies based on the scenario.

Dynamic Shield

1. Adaptive Density:

The dynamic shield can modify its density depending on the type of threat. This system utilizes complex algorithms based on data regarding the configuration and characteristics of threats to provide optimal protection:

For nuclear attacks: The shield increases its density and durability to withstand radiation and powerful explosions. For conventional weapons: The shield can decrease its density, allowing for quicker reaction times and more efficient energy utilization. For energy-based attacks: A special structure is employed to dissipate or reflect laser and plasma strikes, minimizing damage.

2. Structural Modifications:

The shield can change its structure: a single-layer protection for everyday threats or multi-layered protection with insulating and absorbing layers for more serious attacks. This allows for the use of various material combinations (e.g., composite materials, active gels, or plasma fields).

3. Real-Time Response:

Using data from the threat detection system, the shield can quickly modify its protection parameters, minimizing the response time between threat detection and adjustment of the shield's structure. This helps to prevent or reduce damage from attacks.

4. Energy Efficiency:

The dynamic shield has built-in energy management systems that optimize resource consumption based on current threats. This may include the use of alternative energy sources to sustain the system during prolonged attacks.

5. Feedback and Learning:

The system can receive feedback from events (e.g., executed attacks) for subsequent analysis and improvement of algorithms, allowing the dynamic shield to adapt to new types of threats.

All together, these shields allow for the creation of a multilayered and strong protection for the planet."

Eco-Shield: Natural Protection for the Planet

1. Bio-Systems as the Foundation:

The eco-shield can be based on natural bio-systems, such as forests, water bodies, and wetlands. These ecosystems can act as protective layers that absorb and diffuse harmful pollutants while providing a habitat for various species of flora and fauna.

2. Use of Natural Resources

The shield utilizes natural materials, such as plants and minerals, to create a sturdy and resilient structure. Such materials can serve as buffers that absorb energy from various attacks, reducing their impact on the planet.

3. Cleansing Technologies:

The eco-shield may incorporate technologies designed to cleanse the atmosphere of pollutants. For example, it may employ photosynthesizing organisms, such as microalgae, which can effectively absorb carbon dioxide and other harmful substances, thereby improving air quality.

4. Ecosystem Restoration:

This shield can also activate processes that restore ecosystems. For instance, it may include mechanisms that promote the recovery of degraded lands, improve soil conditions, and restore biodiversity, thereby supporting the resilience of natural systems.

5. Integration with Technologies:

The eco-shield can interact with other protective systems, creating a synergistic effect. For example, it could work in conjunction with dynamic shields, providing additional protection while also performing cleansing and restorative functions.

James has launched the production of such shields. I hope in the future they will help you, son."James said,"

James also created a powerful deflector shield to protect a base or a small building."

James also carefully studied spacecraft and other technologies, as well as weapons, and based on them decided to create his own new ships, fighters, and weapons."

James created the Gravicycle Aero Max

Name: Gravicycle "Aero Max"

Type: Gravitational motorcycle

Specifications:

Length: 4 meters Cruising speed: 200 km/h Maximum speed: 1000 km/h

Maximum flight height: 35 meters Engines: Powerful, high-efficiency gravitational engines providing stable ascent and control at height.

Afterburner:

A system that temporarily boosts engine power, allowing for rapid acceleration to maximum speed in seconds.

Crew: 1 pilot 1 passenger Armament:

Equipped with a blaster cannon capable of firing at airborne and ground targets.

Features:

Dynamic Control:

Intuitive control through a touchscreen panel and handles, ensuring easy maneuverability.

Comfort and Safety: Ergonomic seats with safety systems for the pilot and passenger, including safety belts.

Technologies: Integrated navigation systems and monitoring systems for tracking the gravicycle's condition and the surrounding environment.

Power System:

Equipped with high-efficiency power sources that ensure long operation without the need for regular recharging.

Conclusion:

The gravicycle "Aero Max" is an innovative transport vehicle that combines high speed, maneuverability, and firepower, making it an ideal choice for both military and civilian operations

James also created

Name: All-terrain Air Defense System "Phoenix"

Type: Military Vehicle

Specifications:

Length: 20 meters Crew: 2 people

Speed: 80 km/h Body: Reinforced, with a deflector shield for protection against direct hits and shrapnel Armor: High-strength composite armor for maximum protection

Armament:

Missile Defense System: C

apable of intercepting aerial targets at various altitudes with a capacity of 50 missiles. Plasma Machine Gun:

High-speed weapon designed to destroy aerial and ground targets.

Systems and Features:

Navigation System:

Equipped with advanced GPS and GLONASS for precise navigation, as well as an automatic target search system.

Safety Systems: Multi-layered protection, including active threat warning systems.

Mobility: Capable of traversing complex and difficult terrain and operating in combat conditions.

Name: All-Terrain Armored Transport "Terminator Thunder"

Type: Military Vehicle

Specifications:

Length: 25 meters Height: 22 meters

Crew: 3 people Troop Capacity: 60 people Payload Capacity: 1 ton

Armament:

2 Heavy Laser Cannons: Designed for powerful strikes against ground and aerial targets.

2 Rapid-Fire Blaster Cannons: Provide suppressive fire and protection against light threats.

Features:

Armor: Composite armor that offers high protection against small arms fire and shrapnel.

Mobility: All-wheel drive system allowing movement across various types of terrain. Communication and Navigation Systems: Equipped with advanced communication and navigation systems for coordination with other units.

Troop Deployment Module: Comfortable and rapid deployment for troops in combat conditions.

Name: Heavy Transport Combat Walker "Thunder Guardian"

Type: Military Vehicle

Specifications:

Length: 35 meters Height: 30 meters Crew: 10 people

Troop Capacity: 200 people Speeder Bikes: 10 units Autonomy: 1 week Hangar for Droids: Accommodates 4 droid fighters

Armor: Durable, protecting against various types of weapons Armament:

2 Heavy Blaster Cannons: For effective target destruction.

2 Heavy Laser Cannons: For powerful fire attacks against ground and aerial targets.

1 Turret: For 360-degree defense and protection against attacks from various directions. Payload Capacity: 3 tons

And many other walkers

English Translation:

"Heavy Assault Armored Vehicle 'Fortress of Thunder'.

Length: 30 meters.

Height: 15 meters.

Crew:

Driver Mechanic Commander 4 Gunners

Speed:

Standard: 80 km/h Maximum: 230 km/h

Armor: Strong, capable of protecting against various types of firearms and explosive devices.

Armament:

4 heavy blaster cannons mounted for effective destruction of ground targets.

1 turret with a blaster cannon for 360-degree defense. One blaster cannon on each side for protection against lateral attacks.

Rocket launcher with a supply of 70 rockets for delivering powerful strikes at range.

Autonomy: 2 weeks.

Troop capacity: 250 people.

Features:

High maneuverability for movement across various terrain types.

Modern navigation and communication systems for battle management. Ability for quick deployment and connection to other vehicles to enhance firepower.

Special modules for transporting humanitarian aid if necessary."

Title: Combat Platform "Titanic Threat"

Type: Military Combat Platform

Specifications

Length: 30 meters Height: 20 meters Crew: 10 people Troop Capacity: 80 people

Technical Characteristics:

Speed: 160 km/h

Armor: Heavy, capable of protecting against various types of firearms and explosive devices

Armament:

2 Turbo Lasers: Powerful weapons for targeting ground and aerial threats Rocket Launcher: 60 rockets available for long-range strikes

Mines: 15 units for placement in designated areas 5 Fighter Droids: For additional air support and protection

Features:

High maneuverability due to a powerful engine and advanced control systems.

Ability for rapid deployment and integration with other military units.

Provides battlefield support and can be used for troop insertion and protection of soldiers.

Designed to carry out various operational tasks, including attack, defense, and humanitarian missions when necessary.

Title: Heavy Tank Complex "Fearless"

Type: Military tank

Specifications:

Length: 10 meters Crew: 3 people Speed: 90 km/h

Technical Characteristics:

Armor: Strong armor made of beskar, capable of protecting against various types of firearms and explosive weapons.

Armament:

1 Twin Heavy Blaster Cannon: Powerful weapon for destroying ground targets and supporting infantry.

Rocket Launcher: Ammunition of 20 ground-to-ground rockets for striking strategic targets at long range.

Features:

High maneuverability due to a powerful engine and compact size.

Ability for rapid deployment on the battlefield and cover from attacks.

Advanced navigation and communication systems for managing combat operations.

Special modules for upgrading defenses and towing additional weapons if necessary.

Title: Repulsor Tank Complex "Aerodynamic"

Type: Repulsor Tank

Specifications:

Length: 9 meters Maximum Flight Height: 20 meters Crew: 3 people

Speed: 70 km/h Payload Capacity: 350 kg

Technical Characteristics

Shield: Deflector shield for absorbing and reflecting incoming projectiles.

Armament:

4 Light Blaster Cannons: For engaging ground and aerial targets. Rocket Launcher (Ground-to-Air): Ammunition of 10 rockets for destroying aerial threats.

Features:

Advanced repulsor technology providing smooth flight and high maneuverability.

Capable of effectively conducting operations both on the ground and in the air.

Enhanced navigation and communication systems for coordinating combat operations.

Compact design allowing for quick movement and crew protection.

Name: Heavy Tank "Durant-70"

Key Characteristics:

Length: 10 meters Crew: 3 personnel Speed: 70 km/h

Armor: Duranium

Self-Destruct Function:

Self-destruct button with a safety lock Armament: 2 heavy laser cannons capable of dealing substantial damage to ground and airborne targets.

Missile launcher with a capacity of 50 missiles for destroying large targets and providing battlefield support.

Name: SPG "Titan-300

Description

The SPG "Titan-300" represents a powerful self-propelled artillery unit capable of effectively operating on both land and air. With armaments consisting of 4 turbo lasers and 2 ion cannons, it can destroy both ground and aerial targets with high precision.

The missile system, equipped with 150 surface-to-air missiles and 20 guided missiles, provides effective protection against airborne threats, while 2 strike missiles are designed for the destruction of large ground targets

The blasters on board provide additional firepower for supporting the landing troops.

With the "Titan-300," up to 2000 personnel can be deployed rapidly, allowing for quick responses and the capture of strategic points on the battlefield.

The deflector shield measuring meters in height offers reliable protection against enemy attacks, while the 1-ton payload capacity allows for the transportation of necessary equipment.

The Titan-300 has a length of 300 meters and a height of 200 meters."

These Titans protected the planet from the enemy star fleet."

Many new self-propelled artillery weapons and tanks were created."

The main metal for their creation was artificial beskar and durasteel."

James also created huge medical stations, developed a lot of new blaster weapons, grenades, mines, and a variety of melee weapons."

He created a light blaster pistol with an ammunition capacity of 200 shots."

The translation of your sentence into English is: "A heavy blaster pistol with a capacity of 100 shots and a scope."

Shooting range of 800 meters, weight 1500 kilograms."

A blaster rifle with an energy charge capacity of 1000, a gas cartridge capacity of 5000 shots, a mount, and a small compartment for firing grenades."

And many other various improved blaster rifles and pistols."

Many different grenades, mortars and grenade launchers, close-combat weapons, and machine guns."

James has also created many new starships, both civilian and military, as well as starfighters."

Invisible fighters and ships

Starfighter: Shadow Falcon

Specifications:

Speed: 200 light-years per hour (in space)

Armament:

4 heavy laser cannons

10 proton torpedoes

12 missiles

Cargo capacity:

80 kg Atmospheric speed:

250 km/h Crew:

1 pilot

1 astromech droid

Propulsion System: High-tech engines capable of maneuvering at high speeds, equipped with a rapid launch and braking system.

Armor:

A lightweight but durable hull made of a protective polymer material that can absorb laser energy.

Navigation Systems:

Advanced navigation system with collision avoidance, autopilot, and star chart analysis.

Improved Cloaking System:

Starfighter: "Night Stalker"

Specifications:

Length: 12 meters Height: 2 meters Crew:

1 pilot 1 weapons operator Speed: In space: 300 light-years per hour

In atmosphere: 360 km/h Autonomy: 1 month Armor:

Enhanced armor made of Beskara, providing high resistance to energy and physical damage.

Armament: 4 heavy laser cannons

Dual light laser cannon on a turret, allowing fire in various directions 4 homing missiles.

Launcher with a stock of 6 proton torpedoes Defense:

Deflector shield, providing additional protection against enemy fire.

Hyperdrive: Equipped with a modern hyperdrive for quick travel between star systems.

Cargo capacity: 80 kg

Starfighter-Bomber: "Invisible Thunder"

Specifications:

Length: 20 meters Crew: 3 persons

1 Pilot 1 Pilot/Weapon Operator 1 Gunner

Hyperdrive: Class 1 Speed: In space: 100 light-years per hour

In atmosphere: 1500 km/h

Armor: Durable armor made of durasteel, providing a high level of protection

Shields: Ion shield for additional defense

Autonomy: 2 weeks Armament:

2 laser cannons 2 light laser cannons mounted in two turrets, allowing for fire in different directions

1 missile launcher for low-power interceptor missiles Ammo: 10 missiles

Bomb bays for 3 high-power ion or proton bombs

Light Reconnaissance Starfighter: "Shadow Falcon"

Specifications:

Length: 16 meters

Crew: 1 pilot, 1 astromech droid Features:

Features: Invisibility system Deflector shield

Durasteel armor for enhanced durability Speed:

Speed: In atmosphere: 1000 km/h

Manoeuvrability rating: 70 MGLT

Hyperdrive: Class 1 Backup hyperdrive:

Class 6 or 12 Autonomy: 1 month

Armament: 2 laser cannons 1 heavy ion cannon

Ammo: 8 proton torpedoes Cargo capacity: 250 kg

Droid Starfighter: "Lightstorm"

Specifications:

Length: 3.2 meters

Height: 3 meters Speed: In space: 180 light-years per hour

In atmosphere: 2000 km/h Hyperdrive:

Class 2 Autonomy: 1 week

Shields: Ion shield for defensive protection Control

:

Artificial intelligence for autonomous operation and tactical analysis Armament:

1 heavy blaster cannon 4 missiles 2 energy torpedoes

Kamikaze mode: Capability for a suicidal attack to maximize damage to the enemy

Light Invisible Droid Starfighter: "Shadow"

Specifications

Length: 3 meters Height: 2 meters Control: Artificial intelligence (droid brain)

Speed: In space: 500 light-years per hour

In space: 500 light-years per hour In atmosphere: 190 km/h

Autonomy: 1 month Hull:

Made of durasteel for enhanced durability

Shields: Ion shield for protective measures

Armament:

2 heavy blaster cannons

Turret with 12 missiles 3 torpedoes

Invisible Star Destroyer: "Shadow of the Galaxy"

Specifications:

Length: 2000 meters

Crew: 2000 personnel and an artificial intelligence system

Medical Bay:

Yes Cabins for troops: Yes Armor:

Made of durasteel and beskar

Troop Deployment: 3 divisions (30,000 personnel)

Hangar for vehicles:

One tank company, 5 walkers, 2 large self-propelled artillery

walkers Speed: 200 light-years

Speed: 200 light-years Hyperdrive:

Class 4 Backup Hyperdrives: Class 7 Shields:

Shields:

1 main deflector shield 1 backup deflector shield 1 ion shield

Hangar Capacity:

30 droid fighters 10 droid bombers 100 star fighters

40 star bombers 20 transport vessels 25 heavy fighters 8 reconnaissance fighters

10 shuttles 5 cargo ships for planetary deployment

Engines: 7 ion engines Sensors: Various types Armament:

6 twin heavy turbolasers in turret mounts

2 twin heavy ion cannons in turret mounts 2 heavy quad turbolasers

3 tri-barrel turbolasers 2 turbolaser cannons 60 Taim & Bak XX-9 heavy turbolasers 60 Borstel NK-7 ion cannons

10 Phylon Q7 tractor beam projectors

Star Supercruiser: "Harmony of the Galaxy"

Specifications:

Length: 40 kilometers Crew: 20,000 personnel (including droids, service and medical staff, cooks, technicians, and engineers)

Speed: 200 light-years Hyperdrives: Powerful class 10

hyperdrives

Backup Hyperdrives: Class 13

Troop Capacity: 10 divisions (100,000 personnel) Shields: Powerful deflector shields and ion shields

Armor: Alloy of beskar and durasteel

Autonomy: 8 years Cargo Capacity: 2,000,000 tons

Hangar for Equipment:

2 tank divisions 100 various walkers

15 large self-propelled artillery walkers 3,000 shuttles for transporting weapons and equipment

5 Super Star Destroyers

1 medical or other station

Armament:

10,000 droid fighters 10,000 bombers 50,000 various starfighters and bombers

50,000 various starfighters and bombers

4,000 turbolasers 4,000 heavy turbolasers

200 missile launchers (1,000 missiles each)

200 torpedo launchers (2,000 in each) 600 heavy ion cannons 80 tractor beam projectors 5,000 rapid-fire laser cannons

Star Battleship: "Lightstar"

Specifications:

Length: 3,000 meters

Speed: 15,000 megalight-years Troop Capacity: 1 division (15,000 personnel) Hull: Durasteel

Shields:

Ion shield Hyperdrive:

Class 3 hyperdrive Autonomy: 1 year

Armament:

200 laser cannons

50 heavy turbolasers

100 missile launchers

50 ion cannons

Torpedo Launchers: 20 torpedo launchers (20 torpedoes each)

Special Systems:

Stealth Systems: Designed to reduce detectability.

Autonomous Drones: 10 drones for reconnaissance and combat support

Life Support: Modules providing comfortable living conditions for the crew during extended missions.

Here's the translation of your sentence into English:

"A variety of different cruisers and dreadnoughts, starfighters, cargo ships, super destroyers, and civilian vessels have been created."

A variety of different cruisers and dreadnoughts, starfighters, cargo ships, super destroyers, and civilian vessels have been created. Water military and civilian equipment has also been developed."

Military droids were also created by me."

James decided to create 4 super cruisers specifically for Harry."

James created a dreadnought and named it 'Celestial Leviathan.'"

Celestial Leviathan.'"

Main Parameters:

Length: 100 kilometers Height: 500 meters Crew: 40,000 people and droids, including medical personnel, technicians, and repair crew

Troop Capacity: 5 million people

Armor:

Materials: A composite of Beskar and Durasteel, providing maximum protection against energy and kinetic attacks.

Shields:

Types:

Ion shields for protection against laser and energy weapons. Deflector shields for protection against projectiles and other physical threats.

Armament:

Turbolasers: 50,000 heavy turbolasers

Missile Launchers: 15,000 Ion Cannons: 50,000 Turrets: 70,000

Additional Missile Launchers: 100,000

Additional Missile Launchers: 100,000 Other Weapons:

Various types, including artillery systems and air defense systems.

Hangars for Military Vehicles:

Star Destroyers: 20

Capacity: 20 divisions of tanks and self-propelled artillery (50 units) and other vehicles.

Hangar for Starfighters:

Capacity: 4 million fighters and bombers, landing ships, and other vehicles.

Additional Systems:

Droid Guard Chambers: Ensure quick response to attacks; droids will be mobilized and engaged in combat in case of threats.

Lily created a special potion that can heal all wounds and much more; she named the potion 'Tears of an Angel'."

Six months passed. During this time, James and Lily restored the planets, magically returned all the flora and fauna, armed and fortified the cities. They also created Mandalorian armor from artificial Beskar and crafted armor from Durasteel, as magic instructed them.

They built a special underground vault that housed 500 billion credits, 200,000 tons of gold, 200,000 sapphires, 700,000 emeralds, 2 million diamonds, 60,000 uridons, 1 million red diamonds, and much also left there huge supplies of potions and her diaries containing all the information on alchemy and potions. In addition, they bought a lot of various equipment and created artificial fuel.

Well, it's time for you to return to Lothal. The elves and droids will continue to work," said the magic and vanished.

Lily, James, and Harry were flying on the starship. "James, look, the sector has vanished!" said Lily with a smile. "It means that magic is doing everything necessary."