Atoms and the Periodic Table

Atoms & Elements

The Periodic Table

Structure of Atoms

History & Creativity in Science

Nuclear Energy & Radioactivity

100

The smallest unit of an element, represented by a symbol.

Atom

100

The elements in this are organised by their atomic number.

The Periodic table

100

This part is at the centre of an atom, containing protons and neutrons.

Nucleus

100

This Russian scientist is known for organising the first widely accepted Periodic Table.

Dmitri Mendeleev

100

Natural radioactivity is caused by this process occurring in unstable atomic nuclei.

Decay

200

The subatomic particles found in the nucleus of an atom.

Protons and neutrons

200

Elements in the same vertical group (column) of the Periodic Table usually share these.

Similar properties

200

Electrons are found in these around the nucleus.

Electron shells/orbitals/energy levels

200

Give one example where logical reasoning helped scientists predict properties of unknown elements.

Mendeleev left gaps for undiscovered elements and predicted their properties.

200

When radioactive nuclei decay, they release these (name one).

Particles (alpha or beta), energy (gamma)

300

The number of this particle determines the type of element an atom forms

Proton

300

Give the symbol for the element with atomic number 1.

Hydrogen

300

The atomic number of an element tells you the number of these in an atom.

Protons

300

Name one discovery that showed the atom was mostly empty space, changing earlier atomic models.

Rutherford’s gold foil experiment

300

Give one medical use for nuclear energy.

radiation therapy

400

All matter is made of atoms. Name the three basic particles that make up an atom

Protons, neutrons and electrons

400

How do sodium (Na) and potassium (K)’s positions in the Periodic Table help predict their reactivity?

They are both alkali metals in the same group, so they are very reactive.

400

How do electrons and neutrons differ in mass and charge?

Electrons have a much smaller mass and a negative charge, neutrons have about the same mass as protons and no charge.

400

Briefly outline why models and theories in science are often contested and refined.

Because new evidence and experiments can reveal limitations and inaccuracies in older models.

400

Describe one problem with the use of nuclear energy in industry.

radioactive waste disposal or risk of contamination

500

Identify one way atoms of oxygen and carbon differ from each other.

Diffternt numbers of protons/neutrons/electrons

500

Using the Periodic Table, predict if Neon is a reactive or non-reactive element and explain why.

Non-reactive, it is an nobel gas

500

Explain how scientists have refined the model of the atom over time

By proposing and testing new theories (e.g., Thomson’s, Rutherford’s, Bohr’s models) with new evidence and reviewing by the scientific community.

500

Describe how creativity contributed to the development of the modern Periodic Table.

Scientists creatively organised elements by patterns in properties and atomic weights, leading to predictions and discoveries.

500

outline both a major benefit and a major problem associated with using nuclear energy.

Benefit: Effective cancer treatment; Problem: Long-term management of radioactive waste and potential health/environment risks.