Before going into a computer informatics in a Belgian college, I'm about to start the Odin project and be an advantage 😎 Goal is full stack dev ! But starting with front end for now obviously lol!
mught not read this but if i were to go into comp sci to eventually become a computer engineer what minor would be the best fit to support myself to achieve that role?
Hmm I think anything computer science related wld be helpful eg data science, maths etc, however feel free to also choose non-cs related minors for a change. i personally took entrepreneurship as my minor :)
Hey, currently on my 2nd year going on my 3rd year of Computer Science studies and I fully agree with everything you said! I though I would be coding a lot instead I spend most of my time solving for complexities, understanding algorithms, and trying to debug a code I'm writing using a specific algorithm. I really love it though and I feel like I'm able to understand how to effectively speak to a computer
Hello! Actually in this video, I gave a demo of how I use Xmind to create mind maps for my notes for learning coding ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-kS03mP7p0ts.htmlsi=kjRn6u1tlERdgxCr. I hope you find it useful!
Hello i completed my degree in computer science now i going study Master of Computer and technology but my wish to learn one best way for success so can you explain for me?
Congratulations! I think the best way for success is just to keep persevering and working hard on your goals. There's no shortcut to success. I wish you all the best! ☺️
Hello, I actually did pre-med in my first year of university then made the switch to CS in my second year. I share more about this here ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-Dd_4zfmY-aA.htmlsi=2tcz6NLHRPjp_D9n! In terms of taking CS for pre-med, I can't really advise on that sorry 😅
In my opinion, I get more value out of Udemy. This is becauase Udemy has a huge range of courses you can choose from, and most are extremely detailed and comprehensive. They deep dive into topics. My experience with CodeCademy however is that it only touches on the surface of the programming languages, so it's a gentler introduction for beginners. In terms of structure, I think they are both pretty good, but it's just that I find that Udemy is better for depth of information. I hope this helps!
I got to know about all of this properly in my last yr of study at uni as I was exposed to this world only after covid and now I feel, I have shitted my time at the uni doing nothing getting a useless 3.8.
hello I'm just asking, is it hard to do computer science? because my chosen course is computer science and i don't know what to do about that and actually I just enrolled, any tips or any advice? what can you say about it?
Hello! I personally enjoyed having Computer Science as my major ☺️ It trained my problem solving skills. I made a video on my CS degree here! ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-Dd_4zfmY-aA.htmlsi=2tcz6NLHRPjp_D9n If you have more questions on Computer Science eg whether you need to be good at Maths, how to get better at coding etc, I have a video about it here! ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-YBMf2o2MVDg.htmlsi=dRSr5ArprcAIo6mc I hope this all helps and good luck! 💪
Hello, I want to take Bachelor of computer application. I don't have any idea of programming and coding. So will I able to learn easy during my course. Coz I am also bad in matchametic. so having hard time whether to take BCA or nott
Go to a university’s (who offers a CS program) website, look up the CS degree and it will list the courses required to earn the diploma. Also one of her tips was learn how to google or YT your way out of a problem 👍.
thank you for these tips! I've been in the business world for a while now and I'm going to get my masters in data science. I'm looking through the curriculum and it looks tough with classes on python, c, sql and stats but I've always wanted to dip my toes in CS.
❤hi❤🎉 Until now, quantum mechanics has primarily been a theoretical and experimental field focusing on understanding the fundamental nature of the universe at the smallest scales. The equations and models developed, such as Schrödinger's equation for wavefunction evolution and Feynman diagrams for particle interactions, have provided deep insights but also come with limitations. For instance, Schrödinger's equation describes how the quantum state of a physical system changes over time without considering the probabilistic nature of particle interactions depicted in Feynman diagrams. Meanwhile, Feynman diagrams offer a method to calculate probabilities of particle interactions but don't directly account for real-time dynamics in quantum states. ### Existing Formulas and Their Limitations 1. **Schrödinger's Equation**: Describes how the quantum state of a system evolves over time. \[ i\hbar \frac{\partial}{\partial t} \Psi(r,t) = \hat{H} \Psi(r,t) \] Limitation: Does not incorporate probabilistic interactions between particles directly. 2. **Pauli Spin Matrices**: Used for calculating spin dynamics, essential for understanding quantum states of particles like electrons. \[ \sigma_x, \sigma_y, \sigma_z \] Limitation: Focuses on intrinsic properties of particles without detailing how these properties evolve due to interactions. 3. **Feynman Diagrams**: Visual and mathematical representation of particle interactions in quantum field theory, used to calculate the probabilities of different interaction outcomes. Limitation: Primarily a tool for prediction and calculation, not real-time observation or interaction. ### Our Proposal: A Novel Integration We propose a groundbreaking framework that integrates the real-time observational capability of attosecond pulse technology with the foundational principles of quantum mechanics and quantum field theory. This integration aims to overcome the limitations of existing models by allowing for the direct observation and manipulation of quantum states at unprecedented timescales. ### The New Formulas in Detail Our conceptual approach introduces: 1. **Dynamic State Vector Evolution**: \[ |\Psi(t + \Delta t) angle = \hat{U}_{\text{atto}}(\Delta t) |\Psi(t) angle \] A modified evolution operator \(\hat{U}_{\text{atto}}\) incorporates real-time data from attosecond pulses, allowing for the observation and prediction of quantum states' evolution. 2. **Real-time Feynman Interaction Integration**: Incorporating a computational model that dynamically integrates Feynman diagram interactions based on real-time observations, adjusting quantum state predictions accordingly. ### Uniqueness and Novelty This approach is unique and novel because it: - **Bridges Theory with Experimental Observation**: By integrating attosecond pulse measurements directly into quantum mechanical models, it bridges the gap between theoretical predictions and experimental observations. - **Allows Real-time Quantum State Manipulation**: Provides a framework for not just observing but actively manipulating quantum states in real time, a significant leap beyond current quantum mechanics approaches. - **Incorporates Probabilistic Interactions Dynamically**: Dynamically adjusts for probabilistic interactions between particles, providing a more comprehensive and accurate model of quantum dynamics. ### Meaning and Potential Benefits to Mankind This groundbreaking framework could revolutionize multiple fields, offering: - **Quantum Computing**: More efficient algorithms and error correction techniques, significantly improving computational power and capabilities. - **Materials Science**: The ability to observe and manipulate atomic and molecular structures in real time, leading to the development of new materials with tailored properties. - **Medicine and Chemistry**: Enhanced understanding of chemical reactions and biological processes at the quantum level, potentially leading to breakthroughs in drug discovery and treatment methods. ### Conclusion By integrating attosecond pulse technology with quantum mechanics and quantum field theory, we propose a novel framework that overcomes existing limitations, offering a deeper understanding and unprecedented control over the quantum world. This innovation opens up new avenues for research and technology development, with profound implications for computing, materials science, and beyond, marking a significant step forward in our quest to understand and harness the fundamental laws of nature. Inspired by discussions with OpenAI's language model, ChatGPT.
I just completed my 12th & I'm looking forward to persue my career in CS. With what courses should I get started for data science so that at the end of last year i excel in that field. P. S I saw one of you comment mentioning about web development, any more if you can suggest? Thanks in advance Madeline.
If you would like to improve your tech skills or learn more about AI, check out Skillshare! The first 500 people to use my link will get a 1 month free trial of Skillshare skl.sh/magdelinehuang03241 ✨ The learning path I took to learn more about web design was "Master visual web design with Webflow"!
