The Quantum Physics of Relationships

One person can save a failing romantic relationship. No couples therapy necessary.

Huh?

Quantum physics tells us that everything is energy. Thoughts are energy. Emotions are energy in motion. Put those two concepts together and you cannot refute the fact that your thoughts lead to your emotions that lead to your unique world, the reality each individual creates.

You know the question, “Is the glass half full or half empty?” Your response reveals how you run your head.

Do you see the good side of life or the bad side?

Does your focus hone in on what serves you and brings you happiness and health? Or do you misuse your imagination thinking about painful past events and create pictures of even more frightening and disappointing circumstances in your future?

Whichever you choose to see is the one you will live. Guaranteed.

Ah yes, quantum physics further explains that the observer influences the result. The mood you experience when you make your observation totally determines the outcome.

Think of it this way…

In a scientific experiment the scientist poses a hypothesis, predicting a specific outcome of the experiment. Then he observes what happens, interprets his data, and writes up the results he observed.

Two things to know:

1. The scientist sees what he expects and accepts to see and literally is blind to other outcomes–not intentionally. just how the mind works unless a conscious effort is made to include ALL possible outcomes, including those never anticipated and seemingly unrelated to the issue under scrutiny.

2. The scientist, by having a desired expectation, influences the result, increasing the chances of verifying his hypothesis.

How do you apply that knowledge in your own life?

Did you ever know someone diagnosed with a tumor (it showed up in a number of tests) who, on the way to the surgical procedure envisioned herself as all healed and then, when final tests were done just before the surgery (to verify where to operates) all tests showed negative? No more tumor. Remarkably the tumor previously revealed on earlier tests also disappeared.

Your mood influences what you will read in the unopened letter, in the status of the gift you sent across the ocean, on the phone call you’ve been waiting for, in the diagnosis from the doctor, etc.

In fact, scientific tests showed that item A, placed in a package and mailed overseas, somehow mutated during shipment into an item B matching the item B at the receiving end which was originally an item A BEFORE the package shipped.

That research is not new. Many similar experiments verify what quantum physicists verified over the years. Thoughts, as conscious or subconscious intentions, are powerful energies that affect outcomes for people, objects, and events.

Now you know why you do not need couples therapy to move a failing relationship to an amazing one of partnership. Only one person does the work and influences the other just using her own energy to heal herself and send love both to him and to the relationship as a separate entity.

Fantastic Contraption – Physics-Based Flash Game

Fantastic Contraption is a free online flash game based on physics. Your goal is to get your pink wheel to the pink area by creating fantastic contraptions – wheels, connections between them and the other things which, while acting according to physics law, should drive your pink wheel towards your goal.

Fantastic Contraption is different from the other physics based games in its great design and presentation. While everything is simple, it’s all thought-out at the same time. Introduction guides you through the basics of the game in a great manner, so that you grab the concept of the Fantastic Contraption game very quickly. This flash game has great physics engine and enjoyable design – unlike some other similar games, which are either buggy or ugly-looking.

To build your machines out of the parts, you have the following tools in the game: build wheels (either spinning wheels, or the static wheel, which won’t spin unless you push it), water rods are used to connect the wheels, wood rods will bump into wheels and rods they aren’t attached to; move and delete tools are used to modify your design. You even have a share tool, which lets you save your machine to a special code to share with friends!

The machine building process is quite simple and straightforward – you choose and place the wheels, the connections between them, and start the action. You can revise your design any time by deleting or moving the parts. The main challenge is to figure out what kind of machine can reach the level’s goal. You can build as simple machines as possible to win the level, or you can let you imagination run wild and build crazy big machines which reach the goal in the most twisted way possible! That’s the beauty of the game, as it lets you explore different possibilities and be as creative as you wish.

The first levels are simple to hook you up on the game. In the later levels the game gets progressively more challenging and even more interesting. If you like to create real-life machines in an easy and entertaining way, then by all means, try this game – it’s online, it’s free and it’s great!

Physics of Cricket Bowling

When a bowler runs in to bowl, he transfers his momentum due to running to the ball. Let us apply the law of conservation of momentum and Newtons laws of motion to the moving ball before and after it is bowled by the bowler.

Run Length Mechanics:

By the Law of conservation of momentum we write the equation describing the relation between mass of human, velocity of bowler, mass of the cricket ball, and velocity of the ball.

Mass of human * Velocity of stride = Mass of ball * Velocity of release… (1)

For a release velocity of 140 Km/ hr on the ball

Mass of ball = = 1.5 Kg

Mass of human = 70 Kg

Going by equation (1)

1.5 * 140 = 70 * V stride

V stride required of 70 kg human = 3 Km/hr

V stride required of 60 Kg human = 4 Km/hr

V stride required of 80 Kg human = 2.5 Km/hr.

If a bowler wears a 500 gm watch he needs to run slower to achieve the same release speed on the cricket ball as opposed to the case when he does not wear a watch. This is clear from the three equations above that a heavier human needs to run slower to the crease in order to impart the same velocity to the ball.

The run length is a critical factor because of the following reasons. The velocity of stride near the crease will depend upon the acceleration provided by the bowler and the length of his run up.

V * V = 2 * a * S (2) (Newton’s laws of motion)

For a 140 Km/hr release of the ball at a human stride of 3 km/hr or.88 m/s

(fastest human speed is about 10m/s)

0.88 * 0.88 = 2 * acceleration * 10 ( length of run)

Acceleration required = 0.032 m/sec * sec. If the length is shortened, the bowler has to provide more acceleration, that charge in more rapidly in order to achieve the same speed. If the run length is more then the bowler can progress slower to his run up.

Ball recoil:

The ball bounce is determined by the coefficient of restitution. A ball will be slowed down after pitching and also be slowed down in the air. A ball’s recoil is dependent upon the initial velocity and the coefficient of restitution. The release height of the ball is roughly 1.8 – 2.2 meters. At 140 km/hr vertical speed with a coefficient of restitution = 0.5 a ball would recoil up to half of its height. But the speed observed (140 Km/Hr) will not be released vertically.

For a release angle of 45 degrees with the vertical the vertical speed would be 140 * sin 45, the horizontal speed would be 140 * cos 45. This reduces the discharge speed or the horizontal speed to about 100 Km/hr.

For best utilization of the energy expended while running up it appears as though a perfect horizontal release where the angle of release is equal to 0 degrees would cause the discharge speed to be 140, all other release angles would dampen the release velocity on the ball. The recoil height or the height to which the ball bounces after pitching will not get affected by the angle of delivery of the ball. It depends only upon the height of delivery.

Mechanics of Short ball and good length ball:

Short ball and length ball depend upon the height from which the ball is delivered and the angle from which the ball is delivered. The speed at which the ball is thrown does not influence where the ball pitches. The mechanics of the ball will be influenced only because of the Earths gravitational force and no other forces. The location where the ball lands after leaving the bowlers hands will depend upon the horizontal component of the velocity of release.