COLD NUCLEAR FUSION

[21/11 13:14] Suhandono: Kundalini is the power of COLD NUCLEAR FUSION present in the HUMAN BODY. If the ENERGY CHANNELS are BLOCKED or DIRTY, as a practitioner, you WILL SUFFER GREATLY. Therefore, daily TREATMENT is necessary.

[21/11 13:15] Suhandono: Due to practitioners' LACK OF KNOWLEDGE about KUNDALINI, they become indifferent and neglectful.

[21/11 13:17] Suhandono: Kundalini practitioners possess enormous power, yet most of them DO NOT KNOW AND DO NOT CARE TO KNOW.

[21/11 13:18] Suhandono: GREAT POWER IS CARRIED BY THOSE WHO DO NOT KNOW.

[21/11 13:27] Suhandono: Google has spent billions of dollars researching COLD NUCLEAR FUSION and always fails, while your body contains an ACTIVE COLD FUSION REACTOR that you are ignoring.

[21/11 13:29] Suhandono: This topic has been discussed before, and you must have forgotten it because you were NOT ENTHUSIASTIC.

[21/11 13:32] Suhandono: Cold fusion and hot fusion are two different approaches to harnessing nuclear energy through the fusion of atomic nuclei, but they differ fundamentally in mechanism, conditions, and applications. Here are the differences:

1. Required Temperature and Conditions

Hot Fusion:

Requires extremely high temperatures (about 10–15 million degrees Celsius or more) to overcome the repulsion between atomic nuclei.

Usually occurs in plasma, such as in the core of stars or tokamak reactors in laboratories.

Cold Fusion:

Aims to achieve fusion reactions at room temperature or low conditions (without extreme heat).

This claim is not fully accepted scientifically due to a lack of consistent evidence.

2. Reaction Mechanism

Hot Fusion:

Fuses atomic nuclei like deuterium and tritium (isotopes of hydrogen) under high pressure, producing helium and significant energy.

Similar to the process in the sun.

Cold Fusion:

Allegedly occurs through specific catalysts, such as palladium metal absorbing deuterium.

Still controversial, as there is no clear mechanism to overcome nuclear repulsion without high energy.

3. Scientific and Technological Status

Hot Fusion:

Has been tested and is a major focus of research, like in ITER and the National Ignition Facility (NIF).

The main challenge is creating a reactor that produces more energy than it consumes.

Cold Fusion:

First proposed by Martin Fleischmann and Stanley Pons in 1989, but their claims failed to be reproduced by the scientific community.

Still considered speculative or unproven experimentally.

4. Potential Applications

Hot Fusion:

Has the potential to become a clean and nearly unlimited energy source in the future.

The challenge lies in the technology and costs required to achieve extreme conditions.

Cold Fusion:

If proven true, it could revolutionize energy by being efficient, cheap, and not requiring extreme conditions.

However, it is currently just a theory with limited evidence.

Conclusion

Hot fusion is currently more scientifically realistic, though technically very challenging. Cold fusion, while theoretically intriguing, is not yet recognized as a valid method of energy production.

[21/11 13:38] Suhandono: Our standards are too low. Knowledge is only considered useful if it generates money and material gains—nothing more. Our understanding is as low as our standards.

[21/11 13:46] Suhandono: Let me share a story from 2009. A student came and said, "Mr. Han, instead of teaching like this without earning money, it’s better to work hard, save up money—at least 1 billion rupiahs—and deposit it in the bank. Only then start teaching." A few months later, the student went bankrupt and met me again. I asked, "How are things? Still holding onto low standards?" Wealth can disappear in an instant, but knowledge remains.

[21/11 13:58] Suhandono: While I was at the cemetery, guests could come at any time. Once, a guest came while I was eating rice and round white crackers. The guest said, "Just eating crackers, and yet you want to manage so many people?" A few weeks later, the man's wife came crying, saying her husband had been fired for corruption. Now he’s eating rice and crackers.

[22/11 15:01] Suhandono: COLD NUCLEAR FUSION OCCURS AT ROOM TEMPERATURE. The question is, how many degrees Celsius is room temperature?

[22/11 15:01] Suhandono: Room temperature is typically considered to be around 20–25°C (degrees Celsius). This is a range that is generally comfortable for humans and often used as a reference for laboratory experiments or indoor environments.

[22/11 15:02] Suhandono: The normal human body temperature averages around 36.5–37.5°C (degrees Celsius).

However, this can vary depending on factors like:

Age: Babies and children tend to have slightly higher body temperatures than adults.

Time of Day: Body temperature is usually lower in the morning and slightly higher in the afternoon or evening.

Activity: Exercise or physical activity can raise body temperature.

If body temperature exceeds 38°C, it is usually considered a fever, while a temperature below 35°C may indicate hypothermia.