Slingshot Start - Variations 25/26

Slingshot Start - Variations 25/26

LEARNING CAPACITORS 

Minimal EV Battery paired to Piston-Punch recharging & use of capacitors alongside a potential pulse-charge effort to increase force for Pistons in the Piston-Punch concept 

Once Pistons are rock'in then that's it 

Endless Energy 

The Slingshot Start system then auto or manual disengages & systems on

To turn off we use a purge - exhaust to slow pistons which are controlled at different speeds as in instructions (1994-1995 onward)

Pistons come to a slow & stop. Air exhausts out & system is disengaged 

Simple process. Advanced basic Mechanical Engineering 

In Definition 

ELECTTICAL ENGINEERING 

In electrical engineering, a capacitor is a device that stores electrical energy

IN SERIES

When capacitors are connected in series, the overall capacitance is less than the smallest individual capacitor's capacitance. The total capacitance is found by taking the reciprocal of the sum of the reciprocals of the individual capacitances. This means that if you have two capacitors of the same value in series, the total capacitance will be half of their individual value. 

Here's a more detailed explanation:

Series Connection:

Capacitors are connected one after the other, forming a single path for charge. 

Charge Distribution:

In a series circuit, the charge on each capacitor is the same. 

Voltage Distribution:

The voltage across the capacitors is generally not equal and depends on their capacitance. 

Equivalent Capacitance Formula:

The total capacitance (Ceq) is calculated using the following formula:

1/C_eq = 1/C₁ + 1/C₂ + 1/C₃ + ...

where C1, C2, C3... are the individual capacitances. 

Total Capacitance is Lower:

The total capacitance will always be less than the smallest individual capacitance in the series. 

Example:

If you have two 10F capacitors in series, the total capacitance will be 5F. 

IN PARALLEL

When capacitors are connected in parallel, the total capacitance is the sum of the individual capacitances. This means that if you have two or more capacitors connected side-by-side, the overall capacitance of the combination will be greater than the capacitance of any single capacitor in the group. 

Key points about capacitors in parallel:

Voltage:

All capacitors in a parallel connection have the same voltage across their plates. 

Equivalent capacitance:

The equivalent capacitance (the total capacitance of the combination) is calculated by simply adding up the individual capacitance values. 

Charge:

The total charge stored by the parallel combination is the sum of the charges stored by each individual capacitor. 

Formula:

If you have two capacitors, C1 and C2, in parallel, the equivalent capacitance (Ceq) is:

Ceq = C1 + C2 

If you have n capacitors (C1, C2, ..., Cn) in parallel, the equivalent capacitance (Ceq) is:

Ceq = C1 + C2 + ... + Cn 

Example:

If you have a 10 µF capacitor and a 5 µF capacitor in parallel, the total capacitance will be 15 µF (10 µF + 5 µF). 

In essence: Connecting capacitors in parallel effectively increases the total amount of charge they can store at a given voltage. This is because the combined plate area of the parallel capacitors effectively increases the capacitance, according to Basic Electronics Tutorials. 

Energy like areas of Medical & Dental Sciences sorted. 1985-2025 & onward 

- Dr Sydney N Bennett 

CIG 

GLOBAL EMISSIONS REMOVAL 

The State of Carbon Dioxide Removal report (2nd Edition, 2024) estimates that 7–9 gigatonnes (Gt) CO2 removal will be required each year by 2050 to achieve the climate targets of the Paris Agreement

To meet the Paris Agreement's 1.5°C target, scientists estimate that around 7 to 9 billion tonnes of CO2 will need to be removed from the atmosphere annually by mid-century. This is in addition to reducing current emissions to net-zero. While natural carbon sinks already remove about 2 billion tonnes annually, more effort is needed to scale up carbon dioxide removal (CDR) technologies. 

Elaboration:

Current Removal:

Currently, natural processes like photosynthesis and absorption by the oceans remove about 2 billion tonnes of CO2 per year. 

Need for Scaling Up:

To achieve the 1.5°C target, this natural removal needs to be significantly increased to around 7-9 billion tonnes annually by 2050. 

Net-Zero Emissions:

Reducing emissions to net-zero means that the amount of CO2 released into the atmosphere is balanced by the amount removed. This requires both reducing emissions and scaling up CDR technologies. 

CDR Technologies:

Carbon dioxide removal technologies include both natural methods like reforestation and afforestation, as well as technological approaches like direct air capture and bioenergy with carbon capture and storage. 

Importance of CDR:

CDR technologies play a critical role in achieving net-zero emissions and limiting global warming, particularly in sectors where emissions are difficult to reduce, according to the University of Oxford. 

CYPRESS SPECIALS - HIGH PERFORMANCE 

High Performance C/M Semi

Where going uphill & down feels the same then on flats. Fast acceleration + fast braking with single + double trailers

Piston-Punch Generator + Switch Back
4+ Motor
Race suspension

100,000 Labs towing

Auto transmission
Manual transmission simulation
Advanced air braking + traditional system integrated

Metered if your local Government where your registered says yes otherwise no

Customizable living quarters for Capsule House like accommodations 

$25,000 $75,000 cabs Canadian Dollar

Can retrofit trailers with Piston-Punch & available Ground-Up options available 

CIG