- #1
Ming0407
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my Q1 ans. when U=100v, wavelength=1.228 x 10^-10 m
when U=10000v, wavelength=1.228 x 10^-11 m
Q2 ans. help me...
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Ming0407 said:i don't know how to perform the differentiation. because i have not study differentiation, i don't know question 2 too.
Ming0407 said:i don't know how to perform the differentiation. because i have not study differentiation, i don't know question 2 too.
Ming0407 said:i don't know how to perform the differentiation. because i have not study differentiation, i don't know question 2 too.
Quantum Mechanics is a branch of physics that studies the behavior of particles at a microscopic level, such as atoms and subatomic particles. It explains how these particles interact with each other and their surroundings through principles of uncertainty, probability, and wave-particle duality.
U=100v and U=10000v represent the potential energy of a particle in an electric field. This energy is measured in volts (v) and can impact the behavior and properties of the particle, such as its wavelength.
The potential energy of a particle (U) is directly proportional to its wavelength. This means that as U increases, the wavelength of the particle decreases. This relationship is described by the de Broglie wavelength equation, which states that wavelength = h/p, where h is Planck's constant and p is the momentum of the particle.
Yes, the effect of U=100v and U=10000v on particles can differ depending on the specific conditions and properties of the particles. For example, a particle with a higher mass may be less affected by changes in U compared to a particle with a lower mass.
Quantum mechanics plays a crucial role in many modern technologies, such as transistors, lasers, and computer memory. It also helps us understand the behavior of materials at a microscopic level and provides the foundation for fields such as nanotechnology and quantum computing.