You have your ear defenders. Then the sound waves hit the ear defenders and bounce off it.
Other answer
Firstly you draw the ear defender. Most likely sideways.
Secondly, you can draw the materials you want to use in order and add what the particles look like in each material - close together, far apart etc.
Hope I helped XD
In a particle diagram of magnesium reacting with hydrochloric acid, you would see magnesium atoms (Mg) represented by silver-colored spheres, and hydrochloric acid molecules (HCl) represented by green spheres consisting of hydrogen (H) and chlorine (Cl) atoms. As the reaction progresses, you would observe the magnesium atoms losing electrons to form magnesium ions (Mg²⁺) and hydrogen gas (H2) being released.
I'm unable to view the diagram you're referring to. Can you provide a description or more context for me to help you more effectively?
In a Venn diagram, the "warm" set would be fully encompassed within the "hot" set without any overlap or intersection. This represents that if something is not in the "warm" set, it cannot be in the "hot" set as well.
De Broglie's theory, proposed by physicist Louis de Broglie in 1924, states that particles, such as electrons, can exhibit both wave-like and particle-like properties. It suggests that all matter, including particles like electrons, can have wave characteristics with a wavelength inversely proportional to its momentum. This concept is known as wave-particle duality.
A nitrogen particle is composed of one nitrogen atom. At the atomic level, nitrogen atoms have a dense nucleus surrounded by a cloud of electrons, giving them a spherical shape. Nitrogen atoms typically form diatomic molecules (N2) under normal conditions due to their tendency to bond with another nitrogen atom through a triple covalent bond.
In a particle diagram of magnesium reacting with hydrochloric acid, you would see magnesium atoms (Mg) represented by silver-colored spheres, and hydrochloric acid molecules (HCl) represented by green spheres consisting of hydrogen (H) and chlorine (Cl) atoms. As the reaction progresses, you would observe the magnesium atoms losing electrons to form magnesium ions (Mg²⁺) and hydrogen gas (H2) being released.
In a particle diagram of SO2, you would see one sulfur atom bonded to two oxygen atoms through double bonds. The atoms would be represented as spheres, with the sulfur atom being larger than the oxygen atoms. The structure would show the arrangement of atoms in a molecule of sulfur dioxide.
this is the plant leaf diagram.
look like an octopus look like an octopus
a tree diagram is when you make a tree and your leaves have words on it
Here you go!
one dimensional
dog
like to rings that are connected.
It looks like the diagram below./\
it looks like A CHRISTMAS tree
They look like any normal particle, only seen when magnified but even then you can't really describe it.