Professional Availability. Dr Sydney N Bennett

 

Professional Availability. Dr Sydney N Bennett 

PERSONAL 

Contract projects including S.B.G & CIG related 

Design. Engineering. Physics based & efforts S.B.G & CIG allows with no conflict of interest 

Will design with a team & provide licensing for S.B.G & CIG patents, copyrighted & trademarked with open source materials held in 100-170 of 195 countries for use. Automotive & Marine or Recreational Powersports or other 

LUCKY NUMBER 7. EV BATTERY ELECTRIC 

With Dr Sydney Nicola Bennett 

Copy & paste URL link into browser 

https://cmbennettbrothers.blogspot.com/2025/08/sbg-cig-7-tablet-25-30-kwh-switch-bac.html

Review:

Piston-Punch Endless Energy 

https://cmbennettbrothers.blogspot.com/2025/08/cm-screw-pumps.html

Salt + Battery 

https://cmbennettbrothers.blogspot.com/2025/08/sbg-cig-sodium-ion-batteries-sibs.html

Zinc + Battery 

https://cmbennettbrothers.blogspot.com/2025/08/sbg-cig-battery-zinc-manganese-oxide-zmo.html

S.B.G & CIG INVESTMENT GROUP 

27 days annually dedicated for S.B.G & CIG while Board of Directors managed 

Dr Sydney Nicola Bennett is an extended life bio-grown body parts + anti-aging candidate set for scientific testing trials between ages 45-65, 65-70 & leading past age 100 while Neurological Technology trials are over from before & after 1999 & 2012 between 2-4+ or under 6 labs connecting 

The goal for age 90-110+ will be to reverse- control aging past 150 then 250 & so on while DNA children join 

RADIOACTIVE VERSUS NON-FALL OUT 

E=MC2 Einstein. Radioactive Fall-Out

Fission not Fussion. Not Radio-Isotopes or equivlance + Bio-Hazards including Carcinogenic or Mutation Deformities

Splitting atoms, also known as nuclear fission, involves breaking apart the nucleus of an atom, typically a large atom like uranium, releasing a significant amount of energy. This process is used in nuclear power plants to generate electricity and is also the principle behind nuclear weapons. 
Here's a more detailed explanation:
What happens when an atom is split? 

• Fission:
When a neutron collides with a fissile atom (like uranium-235), it can cause the atom's nucleus to become unstable and split into two smaller nuclei, along with the release of energy, heat, and additional neutrons. 

• Chain Reaction:
These released neutrons can then collide with other fissile atoms, causing them to split as well, leading to a chain reaction. 

• Energy Release:
The total mass of the resulting smaller nuclei and released particles is slightly less than the original atom and neutron. This "missing" mass is converted into a tremendous amount of energy, as described by Einstein's famous equation, E=mc². 

How is it used?

• Nuclear Power Plants:
Nuclear reactors control the fission process to generate a steady and manageable amount of heat, which is then used to produce steam that turns turbines and generates electricity. 

• Nuclear Weapons:
In a nuclear weapon, the chain reaction is uncontrolled and occurs rapidly, releasing a massive amount of energy in a short amount of time, causing an explosion. 

Important points:

• Fissile Material: Uranium-235 and plutonium are common materials used in fission reactions. 

• Safety: Nuclear power plants have multiple safety features to prevent uncontrolled chain reactions and manage the radioactive materials produced. 

• Environmental Impact: While nuclear power doesn't directly produce greenhouse gases, it does generate radioactive waste that requires careful disposal. 

S.B.G & CIG Crank Energy. 

Transistor radio. FM. The cool one

Now a crank built in

Utilizing Crank Energy from a Piston-Punch Wind Tunnel we can power the electronics from rather than an EV Motor direct or from EV Battery if not Air Motor & thus saving Energy

This works for Heating & Cooling also

A crank radio converts mechanical energy from hand-cranking into electrical energy to power the radio's circuits and speakers. This is achieved through a generator mechanism, typically involving a coil of wire and a magnet. When the crank is turned, the coil rotates within the magnetic field, inducing an electric current. This electricity is then stored in a battery or capacitor, allowing the radio to function even when not actively cranking. 

Here's a more detailed breakdown:.

• 1. Crank Mechanism:
The hand crank is connected to a shaft that rotates within the radio's generator. 

• 2. Generator:
As the shaft rotates, it spins a coil of wire inside a magnetic field. 

• 3. Electromagnetic Induction:
The movement of the coil through the magnetic field induces an electrical current. 

• 4. Power Storage:
The generated electricity is then used to charge a rechargeable battery or capacitor. 

• 5. Radio Operation:
The stored electricity powers the radio's circuits, allowing you to listen to AM/FM broadcasts or weather alerts. 

• 6. Additional Features:
Some crank radios also include solar panels or other charging options for added versatility. 

PELTON TURBINE CRANK CHARGE

Pelton turbine crank chargers, while not directly using a Pelton turbine, leverage a similar principle of converting kinetic energy into electrical energy through a rotating mechanism. Instead of high-pressure water, these chargers use a hand crank to rotate a generator, producing electricity to power devices. The crank drives a small turbine or rotor, which in turn spins magnets past coils of wire, generating a current. This current can then be used to charge devices directly or to charge an internal battery within the charger. 

Here's a more detailed breakdown: 

• Kinetic Energy Conversion:
The core principle is converting mechanical energy (from cranking) into electrical energy. This is done by rotating a generator, which can be a turbine-like structure or a more traditional rotor with magnets.

• Generator Mechanism:
The rotating mechanism inside the charger contains magnets and coils of wire. As the magnets spin past the coils, they induce a flow of electrical current.

• Charging Output:

The generated electricity can be used in a few ways:

• Direct Charging: Some chargers directly output the generated current via a USB port or other connection, allowing you to charge devices directly.

• Internal Battery: Other chargers include an internal battery that stores the generated electricity. This allows you to charge your devices later, even when you're not actively cranking.

• Advantages:

• Portability: Hand-crank chargers are compact and portable, making them useful for situations where access to electricity is limited, according to electronics.howstuffworks.com.

• Independent Power: They provide a reliable way to charge devices without relying on external power sources like the grid or batteries, says HowStuffWorks.

• Limitations:

• Physical Effort: Generating sufficient power requires sustained cranking, which can be tiring.

• Power Output: The power output of hand-crank chargers is typically lower than traditional power sources, making them suitable for low-power devices like phones and GPS units, says HowStuffWorks.

S.B.G & CIG