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Color Force. Color Force is an American independent film and television production company founded in 2007 by producer and film executive Nina Jacobson after her 2006 termination as president of Disney's Buena Vista Motion Pictures Group. [2] [3] Its films include the Diary of a Wimpy Kid and The Hunger Games series.
The force between quarks is called the color force. Since quarks make up the baryons , and the strong interaction takes place between baryons which are colorless, you could say that the color force is the source of the strong interaction, or that the strong interaction is like a residual color force which extends beyond the proton or neutron to bind them together in a nucleus.
The force between quarks is known as the colour force (or color force) or strong interaction, and is responsible for the nuclear force. Since the theory of electric charge is dubbed "electrodynamics", the Greek word χρῶμα (chrōma, "color") is applied to the theory of color charge, "chromodynamics". History
Color Force II Plus™ is a cyc, wash and effects LED lighting fixture with enhanced brightness and a richer palette. It is part of Chroma-Q's premium performance LED lighting solutions for the theatre and performance sector.
The Color Force 72™ is a super bright LED fixture that can wash up to 8m / 26 ft with RGBA colour mixing and high CRI. It features theatrical grade dimming, effects engine, and various control modes for concert, event, exhibition, TV and theatre lighting.
Color Force. The force between quarks is the color force. Inside a baryon the color force displays properties not observed in the strong interaction between nucleons. The color force does not drop off with distance and is responsible for the confinement of quarks. The color force involves the exchange of gluons.
How does the color (strong) force work? Colored quarks attract one another by exchanging gluons, of which there are eight types. Gluons are massless, have spin 1, travel at the speed of light, and carry both a color and a different anticolor. The number of gluons is determined by the number of color-anticolor combinations.
