Are you on a prowl for a fresh new challenge that you can play on your desktop? If you are a fan of basketball but is tired of the usual gameplay, then you are in for a treat. Bouncy Basketball from Dreamon Studios is a challenging 2D sports game that you can download for your desktop PC.
Download Bouncy Basketball app for Android. Simply bounce the ball to make shots in each level. Play Bouncy Dunk on Mousebreaker.com - How long can you keep the ball moving in this exciting sports game? Head to the court and dunk the basketball as many times as you can. You’ll need to use a unique bouncy shot, though, and no three-pointers are allowed!
It may sound outdated but there is more to this game than meets the eye. For starters, the game is unlike any other basketball game you have ever played before. Proof of this comes from the single button control mechanic built into its structure.
This free desktop PC download is not a complicated game to master. Consider it as a simplified form of basketball due to the fact that all you need to do is jump and shoot. All of which is governed by the single button control mechanic mentioned before.
Aside from its unique gameplay mechanics, Bouncy Basketball for desktop PC still has the basic features common to a basketball-themed video game. Features like replays, slam-dunks, 3-pointers, play-offs, team customization, and a collection of more than 30 teams.
Try out Bouncy Basketball by clicking on the download button on your screen. And try out some top-quality sports games that’ll get your blood pumping, like MLB TAP SPORTS BASEBALL 2018 and Football Star – Super Striker!
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Read More..OK, but what is going on here? It might seem like this is a physics cheat to have the tennis ball bounce so much higher than it started (and that's probably why it's so cool to see it). But in terms of energy, it's all legitimate. Both the basketball and the tennis ball are moving at the same speed right before they hit the ground. This means they both have some amount of kinetic energy, but the basketball has more due to its larger mass. After the collision, the basketball has a very low speed and thus very little kinetic energy.
That means the tennis ball gets a bunch of kinetic energy—and with a low mass, you get a high velocity. But there is another way to approach this problem—a way that is more interesting (at least to me). What if we instead make a numerical calculation for two colliding balls? In a numerical calculation, the motion can be broken into many small steps in time. During each small time step, the forces can be considered to be approximately constant to make very many simple physics problems.In this case, there will only be a force pushing the balls apart when they collide (overlap). I can model this collision force as though it were a spring pushing them apart. This is essentially what happens anyway.
OK, let's just jump to the numerical model. You can press 'play' to run the code and the 'pencil' to view or edit it.
Rhett AllainOf course the goal in physics is to build models. So, let's build a model of multiple dropped balls. Instead of 4 balls, I will just do 3 and let you add more balls if you like. I will still use my same ball collision model (where there is a spring force between them), but this time I am going to have the balls fall and hit a ground just like the actual balls.Here is the basic idea of how this calculation works. Make three balls (that part is obvious). Calculate the gravitational force on each ball (so they will fall). Check to see if any balls overlap.
If so, then calculate the 'spring' force between them based on the amount of overlap. Check the bottom ball to see if it 'hits' the floor. If so, just reverse its momentum. Repeat forever or until you get bored.Now for the code. Press 'run' to play.
The body hung head down, attached to the underside of the palette by the sole of its right foot. It had been drained of blood through a precise incision made from ear to ear under the lantern jaw. There was no blood on the reflective surface of the metal floor. I Have No Mouth, and I Must Scream by Harlan Ellison.pdf. I Have No Mouth, and I Must Scream by Harlan Ellison.pdf. There was a problem previewing I Have No Mouth, and I Must Scream by Harlan Ellison.pdf. I have no mouth and i must scream full text.
If you want to answer the homework questions below, you will need to modify the code. At the very least, you should try changing the masses of the balls (I just pick random starting values). Homework.
Check to see if momentum is conserved in the first horizontal collision program. Momentum isn't conserved in the three-ball-drop case since I didn't include the momentum of the Earth. Is kinetic energy conserved in the horizontal collision? If it's not, then there is a problem—a big problem. What about for the three ball drop?
Is total energy conserved?. How high does the top ball go?. What happens if you change the collision spring constant?. Most important question: can you find a ratio of masses that gives the small ball the highest bounce?. Modify the code so that there are four bouncing balls. Based on energy calculations alone, suppose you drop three balls such that the bottom two stay at rest. How high above the ground would you have to drop this so that the top ball makes it into outer space?
Score hero cheats. What about the drop height to get the ball into orbit? Assume no air resistance.