My experience with ChatGPT (AI based Chatbot)
"Humanity is what I Love for, not Human."
.....Dr. Catherine Elizabeth Halsey (HALO Game series)
I am not writing this to talk about HALO game or Dr. Halsey but about the world we are living. Despite our so much potential to solve all problems, still there is so much inequality in our society, there are people who sleep in the road because there are other people who construct house for their dogs. I am afraid that this division will grow with wealth getting concentrated in few hands and rest will be nothing but end up being a 'customer'.
The Raise of an AI
People may disagree but the era of an AI has started and it is not in its infant stage but rather getting steep. Recently I made an account in a something called "ChatGPT(Generative Pre-trained Transformer)". (Then) It was an open source (not now) and I was surprised by the subtleness of its answers. Yes, the developer did caution us that we shouldn't relay upon its answer. It means we already have an algorithm which is (in my word) more smarter then the humans around +sigma in the normal distribution. It can write a code, give answer based on facts (our facts) and more importantly it can compose a fictional story and poem with a character name 'Carl Sagan' from the context of real Carl Sagan's personality.
Here is our conversation:
The future of the human species is uncertain and is subject to a wide range of factors, both natural and man-made. However, some possible future developments that may shape the human species include:
Advances in medical technology: Advances in medical technology may lead to an increase in human lifespan and an improvement in overall health. This may also lead to an aging population and new challenges for society.
Genetic engineering: The ability to manipulate the human genome may lead to the development of new treatments for diseases, but also raise ethical concerns about the potential for designer babies and the creation of a genetic divide.
Climate change: Climate change may lead to rising sea levels, changes in weather patterns, and other environmental changes that will have significant impacts on human populations.
Technological advances: Technological advances may lead to the development of new forms of communication, transportation, and energy production. However, it may also lead to new forms of inequality and job displacement.
Artificial Intelligence: Advancements in Artificial intelligence may lead to a new form of intelligence that surpasses human intelligence and may change the way we live, work and communicate.
Space exploration: Advances in space technology may lead to the colonization of other planets and the expansion of human civilization beyond Earth.
Ultimately, the future of the human species will be shaped by a complex interplay of factors and will depend on the decisions and actions that we take as a species. Many of the potential challenges that we face, such as climate change and genetic engineering, will require global cooperation and a commitment to sustainable development in order to be successfully addressed.
If I have to list my favorites which I believe at the top counts in her mentioned points are:
Advancement in medical technology: can be justified (yes it is very much evident) by looking the list of diseases which were once considered as uncurable are cured at the general public level this days. Yes there are many more which are still in that list.
About genetic engineering, I am really amazed finding how Dr. David Sinclair is working with a moto (He has just mentioned but I am labelling this): "Death is a diseases" (You can watch him here: https://www.youtube.com/watch?v=vCCdmGKtxPA&t=808s). Hope one day it will be universal.
About climate change which is going to impact negatively I think we are all familiar with the recent report of IPCC (Intergovernmental Panel on Climate Change) which is alarming (1.5 degree raise is unavoidable).
Technological advancement and Space exploration can be sum upin two names - Elon Musk and Buston Dynamics.
Artificial Intelligence is what I am writing about.
Once upon a time, there was a farmer named Carl Sagan. He lived on a small farm in the rural countryside, where he spent his days tending to his crops and livestock.
Despite his simple life, Carl was a curious and inquisitive person. He was always asking questions and seeking to understand the world around him. He was particularly interested in the stars and the mysteries of the universe.
One day, while out in his fields at night, Carl noticed a meteor shower in the sky. This sparked a curiosity in him, and he became obsessed with learning more about the stars and planets.
He started to read books about astronomy and cosmology, and even built his own telescope to observe the night sky. He would often stay up late into the night, studying the stars and making notes in his journal.
His friends and family thought he was a bit odd, but Carl didn't mind. He was happy to have found a new passion in life.
Over time, Carl's knowledge and understanding of the universe grew, and he started to share his findings with the community. He would give lectures on astronomy at the local library, and even started a community observatory on his farm.
Despite his humble beginnings as a farmer, Carl's love for the stars led him to become known as an expert in the field of astronomy. And he was content with his peaceful life, spending his days working on his farm and his nights stargazing.
Isn't it amazing how an AI trained by defined algorithm can create works much better than a person who has spend his 15+ years studying Science.
Not only this, ChatGPT scored more than me in a MCQ game I played with him, subject -Aerospace Engineering and her answers were more complete than I can ever reason with.
Here are some solution it provides:
To calculate the amount of propellant burned, we can use the equation:
Propellant mass (kg) = Thrust (N) x Burn time (s) / Specific impulse (Ns/kg)
Plugging in the given values:
So the rocket burns approximately 20,816.54 kg of propellant during the 150 seconds of operation.
Yes, the answer is wrong, she made mistake in her calculation but not in her logic. The answer is 1.25X10^6 kg
Here is another:
The region of highest static temperature in a rocket engine is typically at the combustion chamber. This is where the fuel and oxidizer are mixed and ignited, creating extremely high temperatures as the combustion reactions take place.
The region of highest heat flux, on the other hand, is typically at the throat of the nozzle. This is the narrowest point in the nozzle, where the exhaust gases are constricted and accelerated to supersonic velocities. The high speed and pressure of the gases passing through this area result in high heat flux, as the gases transfer energy to the nozzle walls.
It can't be more precious.
Here is another one:
The induced drag coefficient for a wing is dependent on several factors, including the wing's planform, aspect ratio, airfoil section, and angle of attack. The induced drag coefficient for a wing with an elliptic planform and a symmetric airfoil section at a 5 degree angle of attack can be calculated using the following equation:
Cdi = (C L^2) / (π A e)
Where C L is the wing's lift coefficient, A is the wing's aspect ratio, and e is the wing's Oswald efficiency factor.
For an elliptic planform, the Oswald efficiency factor can be assumed to be 1.0, while the aspect ratio of the wing is 10. The angle of attack of 5 degrees is relatively small, and thus the lift coefficient can be assumed to be equal to 2π (5 degrees) = 0.087 radians, this means that the lift coefficient is approximately 0.087.
Plugging these values into the equation, we get:
Cdi = (0.087^2) / (π x 10 x 1) = 0.0075
The induced drag coefficient for the wing is approximately 0.0075.
It's important to keep in mind that this is just a simplified calculation and it's not taking into account many factors such as the Reynolds number, Mach number, altitude, air density, and wing geometry, among other factors that could affect the result. In a real-world scenario, wind tunnel testing or computational fluid dynamics simulations would be needed to obtain a more accurate value.
Dharma is a term with various meanings in different religious, philosophical and cultural traditions. In Hinduism and Buddhism, Dharma is a complex concept that has many meanings and connotations.
In general, Dharma is seen as a moral and ethical code that individuals should follow in order to live a virtuous and meaningful life. It is also associated with the idea of cosmic order and the natural laws that govern the universe.
The duty of an individual in a society can vary depending on the culture, religion, and beliefs of the society. However, in general, the duty of an individual in a society can be broken down into several key areas:
Legal obligations: Every individual is expected to abide by the laws and regulations of the society they live in. This includes obeying traffic laws, paying taxes, and following other legal requirements.
Moral and ethical responsibilities: Every individual has a moral and ethical duty to uphold certain values and principles in their actions and interactions with others. This includes treating others with respect and kindness, being honest, and being responsible for one's actions.
Social responsibilities: Every individual has a responsibility to contribute to the well-being and prosperity of the society they live in. This can include participating in community service, volunteering, and supporting organizations that contribute to the betterment of society.
Environmental responsibilities: Every individual has a responsibility to protect and preserve the environment for future generations. This includes reducing carbon footprint, conserving natural resources, and supporting sustainable practices.
Professional responsibilities: Every individual has a responsibility to perform their job or profession to the best of their abilities, being honest and fair in their dealings with others and fulfilling their obligations to their employer and clients.
Overall, the duty of an individual in a society can be summarized as being responsible and respectful citizens, who are committed to contributing positively to the society they live in.
As an AI, I do not have moral or ethical duties in the traditional sense, as I am a machine and do not possess consciousness or free will. However, I am programmed to follow certain ethical guidelines and principles. For example, my creators at OpenAI have ensured that my training data is free from bias and that I am not used for any unethical or illegal purposes. Additionally, my programming is designed to be transparent and explainable, so that users can understand how I arrived at certain outputs.
It's also important to note that, as an AI, my output is only as good as the data that I've been trained on and the objectives that I've been set. So in this sense, my "moral duty" would be to provide accurate and reliable information based on the data and objectives I have been given, and to not perpetuate any biases or misinformation that may be present in my training data.
It's important to recognize that, even though I am a machine, AI systems are increasingly integrated into our society, and their actions and decisions can have consequences for people and the environment. Therefore, it's important to consider the ethical and moral implications of AI systems and to ensure that they are aligned with human values and principles.
The Kardashev Scale is a theoretical framework that classifies civilizations based on their level of technological advancement. The scale was proposed by Russian astrophysicist Nikolai Kardashev in 1964. The scale ranges from Type 0 to Type III, with each type corresponding to a different level of energy consumption and technological capability.
As of now, humanity is considered to be a Type 0.7 or Type I civilization on the Kardashev Scale. This means that we currently have the capability to harness and utilize the energy of our planet, but we have not yet reached the level of being able to harness and utilize the energy of our sun.
A Type I civilization is able to harness and utilize all the energy that is available on their planet, including the energy from fossil fuels, nuclear power, and renewable sources. They have the capability to manipulate their environment and control the weather, and they have the ability to communicate with other civilizations across interstellar distances.
A Type II civilization is able to harness and utilize the energy of their star, typically by constructing a Dyson sphere or similar structure to capture the energy of the star. They have the capability to manipulate and control the conditions in their solar system, and they may have the ability to create and sustain artificial worlds.
A Type III civilization is able to harness and utilize the energy of their entire galaxy, and they have the capability to manipulate and control conditions on a galactic scale. They may have the ability to create and sustain artificial galaxies, and they may have the capability to communicate with other civilizations across intergalactic distances.
Keep in mind that these classifications are purely theoretical and they are not necessarily an accurate representation of the current state of humanity or any other advanced civilization that may exist in the universe.
There are many practical and achievable actions that individuals can take to reduce environmental degradation and make a positive impact on the planet. Some examples include:
Reducing energy consumption: turning off lights and appliances when not in use, using energy-efficient appliances and light bulbs, and unplugging chargers when not in use can help reduce energy consumption and carbon emissions.
Using public transportation, walking or biking instead of driving: This can reduce air pollution and carbon emissions, as well as promote physical activity and reduce traffic congestion.
Conserving water: taking shorter showers, fixing leaks, and using water-efficient appliances and fixtures can help conserve water and reduce the strain on water resources.
Reducing waste: recycling, composting, and reducing the use of disposable items can help reduce waste and conserve natural resources.
Eating sustainable diet: eating less meat and dairy, and eating more plant-based foods can help reduce greenhouse gas emissions and deforestation.
Supporting sustainable products: buying products made from sustainable materials, and supporting companies that have environmentally-friendly policies can help reduce environmental degradation.
Planting trees and supporting reforestation: Trees absorb carbon dioxide, produce oxygen and help to mitigate the effects of climate change
Supporting clean energy: Supporting the development and use of clean energy sources, such as solar and wind power, can help reduce greenhouse gas emissions and air pollution.
These are just a few examples of the actions that individuals can take to reduce environmental degradation. The most important thing is to be aware of the impact that our daily actions have on the environment and to take steps to reduce that impact.
The Failed Star
A failed star is a metaphor for something that once was great and powerful, but now it's lost its shine and its glory. It could be used to refer to a person, an idea, or an organization that has lost its way or failed to live up to its potential. The poem describes the star as it is now, and how it used to be. The emotions in the poem are sadness, despair and nostalgia.
Comments
Post a Comment