Tottenham vs Olympiakos odds: 4/1 for Kane and Son to score

first_imgTOTTENHAM welcome Olympiacos in Jose Mourinho’s first Champions League match as Spurs boss and Ladbrokes have a huge offer for punters.Ladbrokes are offering 4/1 on Harry Kane and Son Hueng-min to score in tonight’s clash.1 Harry Kane and Son Hueng-min speak to new boss Jose Mourinho in trainingThis great 4/1 offer for Kane and Son to score, which is much shorter at 11/4 elswere, can be claimed HERE.Spurs were rampant in Mourinho’s first game in charge as they stormed to a 3-0 lead at away West Ham.Both forwards netted in the victory at the London Stadium with Son netting the opener before Kane scored the third.This offer is available to new and existing customers – but punters who create an account can make the most of Ladbrokes’ bet £5 and get £20 free.As previously mentioned, Ladbrokes are offering free bets for as little as a £5 bet.From betting just a fiver on this Spurs offer a new customer, they will award you with £20 of free bets to play with.To claim this offer, new customers have to register using promo code 20FREE.José Mourinho has spoken to Pochettino’s son about his dad’s sacking but is yet to talk with Tottenham predecessorlast_img read more

Try Out This Physics Problem With a Baseball and a Neighbor

first_imgMore Great WIRED StoriesThe reason you use closed captions for everything nowThe stock market loophole that screws the little guyThe 6 best cold-brew coffee makers you can buyBig Tech isn’t the problem with homelessness. It’s all of usInside Palmer Luckey’s bid to build a border wallLooking for more? Sign up for our daily newsletter and never miss our latest and greatest stories The PhysicsLet me start with a demo. This is a demonstration you can do yourself. Here’s what you do.Take two coins. Place one on the very edge of a flat table so that it is just about to fall off. Now take the second coin and slide it shuffleboard-style so it hits the coin balancing on the edge. The horizontal sliding coin should fly off the table and hit the ground while the edge coin just falls and hits the ground. But here’s the cool part: They both hit the ground at the same time.Here’s what this would look like (in slow motion).Also, here is a numerical calculation of this same thing (so you can see it better). And here is the code on trinket.io if you want to play with it—try changing the starting velocity if you want to see what happens. Just to be clear, there is no air resistance on these balls—just the gravitational force is acting on them after they are “tossed.”OK, now you need to think about your answer. Pick the best possible answer and share with your neighbors. Yes, actually get out of the house and go to your neighbor’s house and see what they think about this question. It’s going to be the beginning of a great conversation. Trust me.Since I really want you to pick an answer, I am going to delay going over this problem. Instead, let me point out why this is such a great question for an introductory physics class.It’s a simple question to understand. You can present this situation to someone and they understand what’s going on—it’s not some super complicated thing. Really, you could just show the picture and then say “which one gets there first?”Everyone probably has an answer. Students might not be too certain of their answer but they won’t just say “I don’t have a clue”—they will all at least have a clue. Even better, the students will be able to give some justification for their answer. This means that they are going to be ready to discuss with other students. Hint: Getting them to discuss with each other is half the battle.There are some aspects that students want to know. They are going to say “well, which one had a greater launch speed?” When they ask something like this, I just say—who knows?Like I said, it’s a great question. Now, because I am weak I will go over the solution. Look away if you are still thinking about this. The best questions are always the ones that don’t have a single clear answer. In my physics classes, I like to present students with problems that can promote a lively discussion—and to do that, they have to have multiple answers that could possibly make sense. (And they shouldn’t involve lots of math, otherwise my students will just get hung up on the calculations.)Here is a version of one of these great questions; it’s truly a classic.A human (person A below) has two baseballs. The human tosses the two balls at the same time but to two different people (persons B and C as labeled below). The trajectory of each ball is shown. Which ball arrives at the person first? Defend your answer. What exactly should you see? You should see that the two coins hit the ground at the same time. Why? Because both coins have the same starting vertical position and the same starting vertical velocity. In the vertical sense, the two motions are identical. And this is the key to projectile motion—an object moving under the influence of the gravitational force can be broken into two separate one-dimensional problems in which the only thing in common is time. In the horizontal direction, it’s a coin moving at a constant velocity. In the vertical direction, it’s a ball that starts off from rest and accelerates.But what does this have to do with the two-baseball problem above?To explain, we can look at another example: Two balls that are tossed straight up (just in one dimension). Here we go.Also, the code—in case you need it.What does this show? This shows that the ball that goes higher stays in the air for longer. Boom. That’s your answer. It doesn’t matter what the balls are doing horizontally. It only matters what they do in the vertical direction. The ball that goes higher (even when also traveling horizontally) stays in the air for longer. In the question above, person C gets the ball first.Maybe you don’t believe me. Maybe you think it depends on the throwing speed. It doesn’t. Here is a real numerical calculation to show you how this works. Go ahead and click Play to run it.[embedded content]See. It works. The ball that goes lower gets to the person the fastest. Go ahead and change the starting speed and see what happens. I made the “people” move so that they will be in the right position to “catch” the ball. You can change the launch angle too. Go ahead and have some fun with this.last_img read more