This is not known today.
When francium and hydrogen combine, they form francium hydride (FrH), a compound where francium acts as a cation and hydrogen as an anion. Francium is extremely rare and radioactive, making it difficult to study its chemical properties in detail. The compound would likely be highly unstable due to francium's extreme reactivity.
Yes, a stable compound can be made from lithium and oxygen to form lithium oxide (Li2O). This compound is stable and is commonly found in nature.
Francium and astatine are both highly reactive elements located in the same period of the periodic table. When combined, they are expected to form a salt molecule due to their reactivity. No specific compound formula can be determined without further information.
Titanium is typically found in compound form, such as titanium dioxide, rather than in pure elemental form. It is commonly extracted from minerals like ilmenite and rutile, and then processed to obtain pure titanium metal.
Francium is a highly radioactive and unstable element that is never found in its pure form in nature. If it were to be touched, it would likely react explosively with water or air. Due to its extreme rarity and radioactivity, no one has ever touched or felt francium.
Francium exist in uranium and thorium ores; the chemical form is not known.
Hydrogen and francium can combine to form a compound with the formula HFr, which stands for hydrogen francium. This compound would be highly unstable and reactive due to the extremely high reactivity of francium. Francium is a rare and radioactive element that is highly unstable and difficult to handle, making it unlikely to form stable compounds with hydrogen.
Francium and fluoride can form an ionic compound called francium fluoride. Francium is a highly reactive alkali metal, while fluoride is a negatively charged ion. When combined, francium will donate its electron to fluoride, forming a stable compound with a 1:1 ratio of francium to fluoride ions.
When francium and hydrogen combine, they form francium hydride (FrH), a compound where francium acts as a cation and hydrogen as an anion. Francium is extremely rare and radioactive, making it difficult to study its chemical properties in detail. The compound would likely be highly unstable due to francium's extreme reactivity.
The products of francium fluoride would be francium cations (Fr+) and fluoride anions (F-) due to the reaction between francium (Fr) and fluoride (F) ions. Francium is a highly reactive alkali metal and fluoride is a halide ion, so they would combine to form a stable ionic compound.
radon is a noble gas, so it does not form compounds.
Yes, a stable compound can be made from lithium and oxygen to form lithium oxide (Li2O). This compound is stable and is commonly found in nature.
The most abundant compound found in magma is silica (SiO2), which is commonly found in the form of quartz and feldspar minerals. Silica content plays a key role in determining the viscosity and behavior of magma.
Francium and astatine are both highly reactive elements located in the same period of the periodic table. When combined, they are expected to form a salt molecule due to their reactivity. No specific compound formula can be determined without further information.
Titanium is typically found in compound form, such as titanium dioxide, rather than in pure elemental form. It is commonly extracted from minerals like ilmenite and rutile, and then processed to obtain pure titanium metal.
Francium would react faster with oxygen than sodium because francium is more reactive due to its position in the periodic table. Francium is in Group 1, which means it has only one valence electron that it would readily lose to form a compound with oxygen.
Sodium is found as a soft solid metal in nature. It is not commonly found by itself, it reacts with things so violently that it is usually found as a compound with other items. Most commonly found is sodium chloride which is just salt. NaCl