AP Physics Essentials: Matter as a Wave

Matter cannot be observed directly.

Matter is composed of energy.

Matter is only made of particles.

Matter can exhibit wave-like properties.

Because matter is too small.

Because matter is not made of waves.

Because the mass of matter is too large compared to Planck's constant.

Because light interferes with matter.

Electrons cannot interfere with each other.

Electrons can behave like waves.

Electrons are not affected by magnetic fields.

Electrons do not have mass.

It explains why particles cannot be waves.

It demonstrates that matter can exhibit both wave and particle characteristics.

It shows that light is only a wave.

It proves that waves are not real.

Classical mechanics is used for small objects.

Quantum mechanics is used for large objects.

Quantum mechanics is used for all objects.

Classical mechanics is used for large objects, and quantum mechanics is used for very small objects.

The wavelength is the same as that of an electron.

The wavelength becomes very small.

The wavelength becomes very large.

The wavelength cannot be calculated.

Because electrons are not affected by Planck's constant.

Because electrons are stationary.

Because electrons have a smaller mass and higher velocity.

Because electrons have a larger mass.

Reflect light.

Interfere with each other.

Move in a straight line.

Change color.

To measure the speed of electrons.

To absorb electrons.

To reflect light.

To scatter electrons and create interference patterns.

That electrons are larger than atoms.

That electrons can act as waves.

That electrons do not exist.

That electrons are unaffected by magnetic fields.