Industry Tech Tree

Regular

Doctrines

Industry

Agriculture

Modern Agriculture

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • Manpower Growth +5%

5 - mechanics - Scientific Plowing Technique

5 - mechanics - Scientific Sowing Technique

5 - mechanics - Scientific Mowing Technique

5 - mechanics - Scientific Cleaning Technique

6 - management - Scientific Agricultural Processes (D)

Mechanized Agriculture

  • Historic Year: 1936
  • Prerequisites:
  • [Modern Agriculture] (/wiki/Industry_Tech_Tree#Modern_ Agriculture “Industry Tech Tree”)
  • Effects:
  • Manpower Growth +5%

6 - mechanics - Plowing Machine

6 - mechanics - Sowing Machine

6 - mechanics - Mowing Machines

6 - mechanics - Cleaning Machines

7 - management - Mechanized Agricultural Processes (D)

Agrichemistry

  • Historic Year: 1936
  • Prerequisites:
  • Effects:
  • Manpower Growth +5%

7 - chemistry - Synthetic Fertilizers

7 - chemistry - Synthetic Insecticides

7 - chemistry - Synthetic Herbicides

7 - chemistry - Synthetic Fungicides

8 - management - Hybridization

Agricultural Production

  • Historic Year: 1936
  • Prerequisites:
  • Effects:
  • Manpower growth +5%

8 - chemistry - Industrial Pasteurization

8 - industrial_engi neering - Large Scale Refrigeration

8 - industrial_engi neering - Sterile Packaging

8 - industrial_engi neering - Dehydration Techniques

9 - management - Agrimanagement Processes (D)

Manufacturing

Basic Machine Tools

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • Industrial Efficiency total 5

5 - chemistry - Cemented Tungsten Carbide

5 - industrial_engi neering - Precision Techniques

5 - industrial_engi neering - Basic Welding Techniques

6 - industrial_engi neering - High Temperature Resistance

7 - industrial_engi neering - Basic Machine Tools Development Process (D)

Improved Machine Tools

  • Historic Year: 1937
  • Prerequisites:
  • Effects:
  • Industrial Efficiency total 5

6 - chemistry - Industrial Ceramic

6 - industrial_engi neering - Sensor Techniques

6 - industrial_engi neering - Improved Welding Techniques

7 - industrial_engi neering - High Speed Performance

8 - industrial_engi neering - Improved Machine Tools Development Process (D)

Advanced Machine Tools

  • Historic Year: 1938
  • Prerequisites:
  • Effects:
  • Industrial Efficiency total 5

7 - chemistry - Industrial Diamonds

7 - industrial_engi neering - Automation

7 - industrial_engi neering - Advanced Welding Techniques

8 - industrial_engi neering - Very High Speed Performance

9 - industrial_engi neering - Advanced Machine Tools Development Process (D)

Basic Construction Engineering

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • Our troops will now dig in when not moving.
  • New Building Allowed: infrastructure
  • New Building Allowed: ic
  • New Building Allowed: land_fort
  • New Building Allowed: coastal_fort

5 - industrial_engi neering - Basic Standardization

5 - management - Basic Quality Control

5 - industrial_engi neering - Basic Reliability Engineering

6 - industrial_engi neering - Basic Test Planning

7 - industrial_engi neering - Basic Construction Engineering Development Process (D)

Improved Construction Engineering

  • Historic Year: 1937
  • Prerequisites:
  • Effects:
  • New Building Allowed: air_base
  • New Building Allowed: naval_base
  • Production Bonus: land_fort 50
  • Production Bonus: coastal_fort 50

6 - industrial_engi neering - Improved Standardization

6 - management - Improved Quality Control

6 - industrial_engi neering - Improved Reliability Engineering

7 - industrial_engi neering - Improved Test Planning

8 - industrial_engi neering - Improved Construction Engineering Development Process (D)

Advanced Construction Engineering

  • Historic Year: 1938
  • Prerequisites:
  • Effects:
  • Production Bonus: land_fort 50
  • Production Bonus: coastal_fort 50

7 - industrial_engi neering - Advanced Standardization

7 - management - Advanced Quality Control

7 - industrial_engi neering - Advanced Reliability Engineering

8 - industrial_engi neering - Advanced Test Planning

9 - industrial_engi neering - Advanced Construction Engineering Development Process (D)

Production Control

  • Historic Year: 1939
  • Prerequisites:
  • Effects:
  • Industrial Efficiency supplies 5

7 - industrial_engi neering - Mass Production

7 - management - Scientific Management

7 - management - Continuous Improvement

7 - management - Setup Time Reduction

8 - management - Production Control Development Process (D)

Production Planning

  • Historic Year: 1939
  • Prerequisites:
  • Effects:
  • Industrial Efficiency supplies 5

7 - management - General Production Planning

7 - management - Inventory Planning

7 - management - Resource Queue System

7 - management - Advanced Worker Time Tables

8 - management - Production Planning Development Process (D)

Assembly Line Experimentation

  • Historic Year: 1940
  • Prerequisites:
  • [Production Control] (/wiki/Industry_Tech_Tree#Product ion_Control “Industry Tech Tree”)
  • Production Planning
  • Effects:
  • Industrial Efficiency supplies 15

8 - management - Modular Design

8 - management - Platform Development

8 - industrial_engi neering - Sectional Assembly

8 - industrial_engi neering - Fracture Mechanics

10 - management - Experimentation Process (D)

Aircraft Assembly Line

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Time interceptor -20
  • Time multi_role -20
  • Time escort -20
  • Time cas -20
  • Time naval_bomber -20
  • Time strategic_bomber -20
  • Time tactical_bomber -20
  • Time transport_plane -20
  • Time cag -20

10 - aeronautics{file-height=“24” file-width=“24” u rl=“/images/a/a1/Aeronautics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Aircraft Modules

10 - industrial_engi neering - Environmental Tests

10 - industrial_engi neering - Propulsion Adaptation

10 - industrial_engi neering - Assembly Line Process

10 - management - Production Tests (D)

Ship Assembly Line

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Time battlecruiser -20
  • Time battleship -20
  • Time carrier -20
  • Time destroyer -20
  • Time heavy_cruiser -20
  • Time light_cruiser -20
  • Time submarine -20
  • Time transport -20
  • Production Bonus: transports 20
  • Production Bonus: escorts 20

10 - naval _engineering - Ship Modules

10 - industrial_engi neering - Environmental Tests

10 - industrial_engi neering - Propulsion Adaptation

10 - industrial_engi neering - Assembly Line Process

10 - management - Production Tests (D)

Vehicle Assembly Line

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Time armor -20
  • Time light_armor -20
  • Time light_armor_brigade -20
  • Time mechanized -13
  • Time motorized -13
  • Time armored_car -20
  • Time heavy_armor -20
  • Time super_heavy_armor -20
  • Time tank_destroyer -20
  • Time sp_artillery -20
  • Time sp_rct_artillery -20

10 - mechanics - Vehicle Modules

10 - industrial_engi neering - Environmental Tests

10 - industrial_engi neering - Propulsion Adaptation

10 - industrial_engi neering - Assembly Line Process

10 - management - Production Tests (D)

Rocket Assembly Line

  • Historic Year: 1942
  • Prerequisites:
  • Effects:
  • Time flying_bomb -20
  • Time flying_rocket -20

10 - rocketry - Rocket Modules

10 - industrial_engi neering - Environmental Tests

10 - industrial_engi neering - Propulsion Adaptation

10 - industrial_engi neering - Assembly Line Process

10 - management - Production Tests (D)

Small Arms Assembly Line

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Time infantry -20
  • Time cavalry -20
  • Time militia -20
  • Time garrison -20
  • Time police -10
  • Time paratrooper -10
  • Time bergsjaeger -10
  • Time marine -10
  • Time engineer -10
  • Time mechanized -7
  • Time motorized -7
  • Time anti_tank -20
  • Time anti_air -20
  • Time artillery -20
  • Time rocket_artillery -20

10 - gener al_equipment - Modular Construction

10 - industrial_engi neering - Environmental Tests

10 - industrial_engi neering - Efficiency Tests

10 - industrial_engi neering - Assembly Line Process

10 - management - Production Tests (D)

Synthetic Oil

Basic Oil Refining

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • Industrial Multiplier energy_to_oil 0.1

7 - chemistry - Basic Distillation

7 - chemistry - Basic Cracker

7 - chemistry - Basic Isomerisation

7 - chemistry - Basic Hydrogen Treatment

8 - industrial_engi neering - Basic Test Facility (D)

Improved Oil Refining

  • Historic Year: 1938
  • Prerequisites:
  • [Basic Oil Refining] (/wiki/Industry_Tech_Tree#Basic_O il_Refining “Industry Tech Tree”)
  • Effects:
  • Industrial Multiplier energy_to_oil 0.25

7 - chemistry - Improved Distillation

7 - chemistry - Improved Cracker

7 - chemistry - Improved Isomerisation

7 - chemistry - Improved Hydrogen Treatment

8 - industrial_engi neering - Improved Test Facility (D)

Advanced Oil Refining

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Industrial Multiplier energy_to_oil 0.4

8 - chemistry - Advanced Distillation

8 - chemistry - Advanced Cracker

8 - chemistry - Advanced Isomerisation

8 - chemistry - Advanced Hydrogen Treatment

9 - industrial_engi neering - Advanced Test Facility (D)

Basic Synthetic Oil Plant

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • Industrial Multiplier energy_to_oil 0.6

8 - chemistry - Basic Catalysts

8 - chemistry - Basic Reactors

8 - chemistry - Basic Product Processing

8 - chemistry - Basic Feedstock Preparation

10 - industrial_engi neering - Basic Oil Plant Prototype Tests (D)

Improved Synthetic Oil Plant

  • Historic Year: 1942
  • Prerequisites:
  • Effects:
  • Industrial Multiplier energy_to_oil 0.75

8 - chemistry - Improved Catalysts

8 - chemistry - Improved Reactors

8 - chemistry - Improved Product Processing

8 - chemistry - Improved Feedstock Preparation

10 - industrial_engi neering - Improved Oil Plant Prototype Tests (D)

Advanced Synthetic Oil Plant

  • Historic Year: 1943
  • Prerequisites:
  • Effects:
  • Industrial Multiplier energy_to_oil 0.9

8 - chemistry - Advanced Catalysts

8 - chemistry - Advanced Reactors

8 - chemistry - Advanced Product Processing

8 - chemistry - Advanced Feedstock Preparation

10 - industrial_engi neering - Advanced Oil Plant Prototype Tests (D)

Cryptography

Census Tabulating Machine

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • Research Modifier: 5

8 - mechanics - Fine Mechanics

7 - mechanics - Manual Reconfiguration

7 - mechanics - Card Storage and Sorting

3 - mechanics - Punch Cards

10 - mechanics - CT Machine Prototype Tests (D)

Basic Computing Machine

  • Historic Year: 1936
  • Prerequisites:
  • Effects:
  • Research Modifier: 5

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Applied Mathematics

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Control and Arithmetic Unit

8 - mechanics - Memory Device

8 - mechanics - Punch Tape and Reader

8 - management - Basic Computing Machine Prototype Tests (D)

Improved Computing Machine

  • Historic Year: 1938
  • Prerequisites:
  • Effects:
  • Research Modifier: 5

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Machine Code

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Control and Arithmetic Unit

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Data Storage Relays

8 - mechanics - Punch Tape and Reader

8 - management - Improved Computing Machine Prototype Tests (D)

Advanced Computing Machine

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Research Modifier: 5
  • May lead to . 7140

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Assembler Languages

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Control and Arithmetic Unit

8 - mechanics - Multiple Data Storage Relays

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Multiple Punch Tapes and Readers

8 - management - Advanced Computing Machine Prototype Tests (D)

Basic Encryption Devices

  • Historic Year: 1937
  • Prerequisites:
  • Effects:
  • IntOp Chance them -15
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance them -15

7 - mechanics - Keyboard

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Portable battery

7 - mechanics - 3-Rotor system

7 - mechanics - Basic Reflector

7 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Code

Basic Decryption Devices

  • Historic Year: 1938
  • Prerequisites:
  • Effects:
  • IntOp Chance us 25
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance us 15

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Identification of Message Keys

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Identification of Cribs

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Cryptographical Mathematical Theory

8 - training - Special Decryption Teams

8 - mechanics - Basic Computing Machine Support

Improved Encryption Devices

  • Historic Year: 1939
  • Prerequisites:
  • Effects:
  • IntOp Chance them -15
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance them -15

7 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Binary system characters

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Improved powersource

7 - mechanics - 6-rotor system

7 - mechanics - Double teleprinter

7 - management - Unique settings

Improved Decryption Devices

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • IntOp Chance us 25
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance us 15

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Identification of Multiple Message Keys

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Identification of Repetitions

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Theoretical Computer

8 - training - Special Decryption Facility

8 - mechanics - Improved Computing Machine Support

Advanced Encryption Devices

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • IntOp Chance them -15
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance them -15

7 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - 5-Bit combinations

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced electro-mechanics

7 - mechanics - 10 Rotor-system

7 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Simultaneous encryption

7 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - One-time code pads

Advanced Decryption Device

  • Historic Year: 1942
  • Prerequisites:
  • Effects:
  • IntOp Chance us 25
  • Surprise Chance naval 15
  • Surprise Chance land 15
  • Surprise Chance air 15
  • Army detection Chance us 15

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Identification of Parallel Texts

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Reconstruction

8 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Prime Number Theory

8 - training - Multiple Cooperating Decryption Facilities

8 - mechanics - Advanced Computing Machine Support

Radar

Basic Decimetric Radar Warning Sites

  • Historic Year: 1937
  • Prerequisites: None
  • Effects:
  • New Building Allowed: radar_station
  • Radar Station Efficiency: 5

6 - mechanics - Basic Antenna

6 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 10m/30MHz

6 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Mechanical Structure

6 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Manual Plotting Device

6 - management - Basic Air Defence Integration

Improved Decimetric Radar Warning Sites

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • Radar Station Efficiency: 10

7 - mechanics - Improved Antenna

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 1.5m/200MHz

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Improved Mechanical Structure

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Improved Manual Plotting Device

7 - management - Improved Air Defence Integration

Advanced Decimetric Radar Warning Sites

  • Historic Year: 1942
  • Prerequisites:
  • Effects:
  • Radar Station Efficiency: 10

7 - mechanics - Advanced Antenna

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 50cm/600MHz

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Mechanical Structure

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Manual Plotting Device

7 - management - Advanced Air Defence Integration

Basic Centimetric Radar Warning Sites

  • Historic Year: 1942
  • Prerequisites:
  • Effects:
  • Radar Station Efficiency: 5

7 - mechanics - Tower Antenna

9 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 10cm/3GHz

7 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Electrical Structure

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Basic Electromechanical Plotting Device

10 - management - Basic Air Defence Network

Improved Centimetric Radar Warning Sites

  • Historic Year: 1943
  • Prerequisites:
  • Effects:
  • Radar Station Efficiency: 20

8 - mechanics - Movable Antenna

10 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 12cm/4GHz

8 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Improved Electrical Structure

9 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Improved Electromechanical Plotting Device

10 - management - Improved Air Defence Network

Advanced Centimetric Radar Warning Sites

  • Historic Year: 1944
  • Prerequisites:
  • Effects:
  • Radar Station Efficiency: 25

10 - mechanics - Transportable Antenna

10 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Transmitter Frequency 15cm/5GHz

10 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Electrical Structure

10 - electronics{file-height=“24” file-width=“24” u rl=“/images/d/dd/Electronics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Advanced Electromechanical Plotting Device

10 - management - Advanced Air Defence Network

Nuclear

Faculty of Atomic Research

  • Historic Year: 1936
  • Prerequisites: None
  • Effects: None

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Atomic Physics

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Radioactivity

10 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Department of Higher Mathematics

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Astro-Physics

10 - chemistry - Department of Physical Chemistry

Atomic Research Laboratories

  • Historic Year: 1936
  • Prerequisites:
  • Effects: None

10 - nuclear_e ngineering - X-ray Spectrometry Lab

10 - nuclear_e ngineering - Cathode Spectrometry Lab

10 - nuclear_e ngineering - Anodic Spectrometry Lab

10 - nuclear_e ngineering - Radionuclide Lab

10 - nuclear_e ngineering - Transmutation Lab

Faculty of Nuclear Research

  • Historic Year: 1939
  • Prerequisites:
  • Effects: None

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Nuclear Physics

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of High Energy Radiation

10 - mathematics{file-height=“24” file-width=“24” u rl=“/images/7/79/Mathematics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Department of Mathematical Physics

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Relativistic Mechanics

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Department of Nuclear Chemistry

Isotope Separation Facility

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • New Building Allowed: nuclear_reactor
  • Max Reactor Size: 1

10 - nuclear_e ngineering - Experimental Proof of the Equivalence of Mass and Energy

10 - nuclear_e ngineering - Radioactive Material Analysis

10 - nuclear_e ngineering - Laboratory produced Fission

10 - nuclear_e ngineering - Chain Reaction Process Discovered

10 - nuclear_e ngineering - Isotope Separation Process (D)

Nuclear Fuel Analysis

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • Max Reactor Size: 2

10 - nuclear_e ngineering - Betatron Particle Accelerator

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Uranium 238

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Thorium 232

10 - n uclear_physics{file-height=“24” file-width=“24” url=” /images/a/a1/Nuclear_physics.png” decoding=“async” height=“24” loading=“lazy” width= “24”} - Uranium 235

10 - nuclear_e ngineering - Material Stability Tests (D)

Experimental Reactor

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • Max Reactor Size: 3

10 - nuclear_e ngineering - Nuclear Reactor Design

10 - nuclear_e ngineering - Reflector Material Tests

10 - nuclear_e ngineering - Moderator Material Tests

10 - nuclear_e ngineering - Heavy Water Plant

10 - management - Reactor Prototype Tests (D)

Nuclear Reactor Operability

  • Historic Year: 1943
  • Prerequisites:
  • Effects:
  • Max Reactor Size: 4

10 - nuclear_e ngineering - Core Structure

10 - nuclear_e ngineering - Reflector

10 - nuclear_e ngineering - Moderator

10 - nuclear_e ngineering - Applied Rare Minerals

10 - management - Operationability Tests (D)

Nuclear Power Production

  • Historic Year: 1944
  • Prerequisites:
  • Effects:
  • Max Reactor Size: 5
  • production in changed by -4 50
  • May lead to . 7170
  • May lead to . 7200
  • May lead to . 7210
  • May lead to . 7220
  • May lead to . 7230

10 - nuclear_e ngineering - Nuclear Power Plant Design

10 - nuclear_e ngineering - Nuclear Propulsion Design

10 - nuclear_e ngineering - Emergency Shut-down System

10 - nuclear_e ngineering - Nuclear Waste Disposal

10 - management - Power Plant Prototype Tests (D)

Rocket

Rocket Test and Research Facility

  • Historic Year: 1936
  • Prerequisites: None
  • Effects:
  • New Building Allowed: rocket_test

7 - aeronautics{file-height=“24” file-width=“24” u rl=“/images/a/a1/Aeronautics.png” decoding=“async” height=“24” loading=“lazy” width=“24”} - Wind Tunnels

7 - rocketry - Test Range

7 - rocketry - Telemetrics Station

7 - chemistry - Rocket Fuels

7 - management - Basic Rocket Flight Tests (D)

Rocket Engine

  • Historic Year: 1939
  • Prerequisites:
  • Effects:
  • May lead to . 7010
  • May lead to . 7100
  • May lead to . 7260
  • May lead to . 7270

8 - rocketry - Chamber

8 - rocketry - Diffuser

8 - rocketry - Nozzle

8 - rocketry - Fuel injector

8 - rocketry - Burner

Turbojet Engine

  • Historic Year: 1939
  • Prerequisites:
  • Effects:
  • May lead to . 7030
  • May lead to . 7050
  • May lead to . 7060
  • May lead to . 7070
  • May lead to . 7080
  • May lead to . 7090

8 - rocketry - Compressor

8 - rocketry - Fan

8 - rocketry - Air intake

8 - rocketry - Fuel injector

8 - rocketry - Burner

Flying Bomb Development

  • Historic Year: 1940
  • Prerequisites:
  • Effects:
  • May lead to . 7100

6 - rocketry - Solid Fuel Rocket Engine

6 - rocketry - Gyroscope Autopilot

6 - rocketry - Launch Catapult

6 - rocketry - Modified Steering Fens

6 - management - Trajectory Test Flights (D)

Flying Rocket Development

  • Historic Year: 1941
  • Prerequisites:
  • Effects:
  • May lead to . 7110

7 - rocketry - Liquid Fuel Rocket Engine

7 - rocketry - Advanced Gyroscope Autopilot

7 - rocketry - Mobile Launch Sites

7 - rocketry - Reinforced Ribs

7 - management - Trajectory Test Flights (D)