rutherfordium

The amount of rutherfordium that has been made is not enough to give much information about it.

In addition, rutherfordium is also expected to be able to form a less stable +3 state.

Rutherfordium is expected to be a solid under normal conditions.

In 1997 they resolved the dispute and used the current name of rutherfordium.

The atomic radius for rutherfordium is expected to be around 150 pm.

Some cannot be found on earth and can only be made in labs, like rutherfordium.

The transactinide elements are beginning with rutherfordium (atomic number 104).

Heavier isotopes of rutherfordium have only been observed as decay products.

The chemical properties of rutherfordium are characterized only partly.

Recent work is more reliable regarding the identification of the parent rutherfordium radioisotopes.

Isotopes of rutherfordium have also been identified in the decay of heavier elements.

Rutherfordium is the first transactinide element and the second member of the 6d series of transition metals.

They range from Rutherfordium to Ununoctium on the Periodic table.

The assignment to rutherfordium isotopes was later retracted.

Furthermore, they were able to detect the K X-rays from the daughter rutherfordium element for the first time.

Ku, the proposed chemical symbol for kurchatovium (later named rutherfordium)

All isotopes of rutherfordium are radioactive.

The atomic number of rutherfordium.

Rutherfordium is the first transactinide element.

It is thought that the chemistry of rutherfordium will be like the chemistry of hafnium.

Element 104: dubnium; changed from rutherfordium (or kurchatovium).

Element 106: rutherfordium; changed from seaborgium.

This section deals with the synthesis of nuclei of rutherfordium by so-called "cold" fusion reactions.

Rutherfordium is a chemical element.

Chemistry experiments have confirmed that rutherfordium behaves as the heavier homologue to hafnium in group 4.