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Why does the wavelength of a macroscopic object does not affect the behavior of the object?
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Why is de broglie wavelength associated with macroscopic objects is not observed in daily life?
Because such a wavelength is way too small to be significant. The de Broglie wavelength is inversely proportional to an object's momentum (mass x speed).
What will happen to an object wavelength as the object move toward you?
The wavelength will be shorter!
What is the total of potential and kinetic energy of an object?
In microscopic particles, it's called internal energy. In macroscopic object it's called thermodynamic energy
What did you observe about the wavelength and frequencies of the different colors of light?
A higher frequency means a shorter wavelength, and a lower frequency means a longer wavelength.
What will happen to an objects wavelength as the object moves toward you?
The wavelength will be compressed/shortened.
Why is de broglie wavelength associated with macroscopic objects is not observed in daily life?
Because such a wavelength is way too small to be significant. The de Broglie wavelength is inversely proportional to an object's momentum (mass x speed).
What will happen to an object wavelength as the object move toward you?
The wavelength will be shorter!
Can an object vibrate at the wavelength of light?
No object can vibrate at the wavelength of light. wavelength of light depends on the intensity of light and electron movements.
How would describe the volume what object in the amount of water in a swimming pool?
Macroscopic
What is diagram showing differce betweet microscpic and macroscopic aproach?
Microscopic is a small object that can only be seen through a microscope. Macroscopic approach is objects that can be seen by the eye.
What did you observe about the wavelength and frequencies of the different colors of light?
A higher frequency means a shorter wavelength, and a lower frequency means a longer wavelength.
What is the total of potential and kinetic energy of an object?
In microscopic particles, it's called internal energy. In macroscopic object it's called thermodynamic energy
The wavelength of light used to observe an object must be ... than the object itself?
The wavelength of light used to observe an object must be shorter than the size of the object itself.
How does the final keyword affect the behavior of Object type in Java?
In Java, the final keyword specifies that the object created cannot be further redefined or derived.
What will happen to an objects wavelength as the object moves toward you?
The wavelength will be compressed/shortened.
The total amount of the kinetic energy and potential energy in an object?
It's internal energy if the object is microscopic and thermodynamic or mechanical energy if it's macroscopic.
What is the wavelength of a 300 gram object moving at a velocity of about 100 mph?
The mass and velocity of an object do not determine its wavelength: it could be travelling in a straight line!
