Another Daniel

Javier Molina - The Old Rugged Cross with Jimmy Swaggart youtu.be/zOafRebmZVE via @YouTube

@joeroganhq Incomplete context in order to rage bait. Not taking the bait.

Actor Ed O’Neill: "You would never listen to a guy like Trump in those earlier years in Youngstown. Nobody would... They’d just laugh at him, you know for being such an arrogant liar. A guy who never really worked hard in his life."

Isn’t this FUN

@JesseHughes Literally One Vote will full field. See you in the runoff.

You’ve gotta be kidding me

@IcsMarc @AircraftYTube Exactly. Haven’t seen a single prop with retractable landing gear. Where did it go?

@AircraftYTube Engine failure, so no gear also ?

Engine failure over Sydney

@MikeForcella WR Ranking: Only because Eagles got more production from their 4 and 5 than the Cowboys. If the ranking was only for 1, 2 and 3, Cowboys would be first for WR.

Objectively factual NFC East Team Rankings

@NFLFrascella Not even a RAMS fan, I agree. That was 100 percent a catch. Puka is the best receiver I have ever watched.

If this isn’t a CATCH, just cancel the sport of football No one knows what a catch is anymore INSANE effort by Puka Nacua, unbelievable coordination and hand-eye I see enough control and I see toes dragging, game on the line, it’s a catch for me

@gavinmchughh Hahahaha 😂

“Ruling on the field is a touchdown” *crowd goes nuts “But the game is over go fuck yourself”

@CollinRugg AI is a fun tool. However, when it’s used to make a show host appear to be much diminished cognitively, you’ve gone too far.

NEW: ESPN’s Ryan Clark accuses Uber drivers of “musically profiling” him by changing the songs when he gets in the car. “I am tired of being musically profiled in Ubers.” “The [driver] doesn't even ask me. He just changes the radio. First song, All Eyes On Me by Tupac. That's not even one of the songs I listened to from that album.” How traumatizing.

@BleedGreen698 @leatherbrainz As a Cowboys fan, you are not wrong. Brown and Smith are also a 1a and 1b tandem. Which is which? Depends on who is getting doubled. Don’t tell Patullo, figure it out next year while the Cowboys pass you and win the division 🙂

@leatherbrainz Give the Eagles a real OC and AJ Brown/DeVonta Smith are easily on this list

Who is the BEST #NFL WR duo right now? 👀

THIS SONG IS OUT NOW W/ Thegreatwhite youtube.com/shorts/DImYgmQ… via @YouTube

National Anthem of Israel - Hatikvah - Lyrics and Translation youtu.be/awx654y3z-0?si… via @YouTube

Thank you Charlie Kirk youtube.com/shorts/ODeYGHC… via @YouTube

Charlie Kirk Vigil Huntington Beach - someone sent me a view from the air. Thank you all for turning out.

This is my California.

A vigil held tonight in #HuntingtonBeach in memory of Charlie Kirk and September 11th.

😀

@AngryCops This was a once in a generation comeback. Once you come back from the trail, enjoy the highlights 😀

@RFKracing Actually corrected the graphic while destroying the evidence. #peeinthiscup

Final crown jewel race of '25 📺

“Quantum computing” Grok: It’s tough to shift from the familiar 1s and 0s of classical computing to the weird world of quantum! Let’s break this down in a way that builds on the logical architecture of 1s and 0s you’re used to, but gently bridges to how quantum computing does its thing. I’ll keep it intuitive and avoid overloading you with jargon. Classical Computing: The 1s and 0s You Know In a classical CPU, everything boils down to bits—switches that are either 0 (off) or 1 (on). The CPU processes these bits using logic gates (like AND, OR, NOT) to perform calculations. For example: • Want to add 2 + 2? The CPU converts numbers to binary (e.g., 10 + 10), processes them through gates, and outputs 100 (4 in binary). The architecture is straightforward: bits are stored in memory, processed by the CPU’s logic gates, and the result is spit out. It’s like a librarian checking one book at a time to find an answer. 1. Qubits Aren’t Just 1 or 0: • A classical bit is like a light switch: on (1) or off (0). A qubit is like a dimmer switch that can be on, off, or anywhere in between at the same time. This “in-between” state is called superposition. • Think of a qubit as a coin spinning in the air—it’s not just heads or tails but a mix of both until it lands. For example, one qubit can represent 0, 1, or a combination (e.g., 60% 0, 40% 1). 2. Superposition = Multiple States at Once: • If you have 2 classical bits, they can be 00, 01, 10, or 11—one state at a time. With 2 qubits, you can represent all four states (00, 01, 10, 11) simultaneously in one quantum state. 3. Processing Isn’t Sequential: • In classical computing, you process bits through gates one step at a time. In quantum computing, you use quantum gates (like Hadamard or CNOT) that manipulate the entire quantum state—all those superimposed possibilities—at once. • Imagine you’re solving a maze. A classical computer tries each path one by one. A quantum computer is like flooding the maze with water and seeing where it flows fastest—it explores all paths simultaneously through superposition. 4. Entanglement: The Secret Sauce: • Qubits can be entangled, meaning their states are linked. If you change one qubit, the others instantly adjust, even if they’re far apart. This lets quantum computers handle complex relationships in data efficiently. • Think of it like a pair of magic dice: roll one, and the other instantly shows a related number, no matter where it is. • It’s not brute forcing because you’re not checking each solution individually—you’re manipulating probabilities across all solutions to highlight the right one. Why It Feels Like “All Solutions in One” You mentioned being stuck on how quantum computing seems to “brute force all solutions into one.” It’s not brute forcing—it’s more like orchestrating all possibilities at once. Here’s an analogy: • Classical: You’re searching for a key in a huge box of junk. You pull out one item at a time (or a few with multiple hands) until you find it. • Quantum Hardware: Qubits are physical systems (e.g., trapped ions, superconducting circuits) controlled by quantum gates (using lasers or microwaves). • Quantum Software: Algorithms like Shor’s or Grover’s tell the quantum computer how to manipulate qubits to solve specific problems, not general tasks like running a web browser. • Output: You get a probabilistic answer, so algorithms are designed to amplify the correct solution’s probability. Why It’s Hard to Grasp Your frustration is totally valid—quantum computing defies our intuition because it’s not just a faster version of classical logic. It’s a new paradigm where 1s and 0s become a spectrum of possibilities, processed in parallel through quantum mechanics. It’s like moving from a typewriter to a sci-fi holographic computer.

@elonmusk New Federal regulation (don’t look it up) requires “selfie stick” footage of any payload you put in orbit. Looking forward to the awesome videos.