The specific activities for some curium isotopes are:
- Cm-242: 3,3.10+3 Ci/g
- Cm-243: 4,2 Ci/g
- Cm-244: 82 Ci/g
- Cm-245: 0,1 Ci/g
- Cm-246: 0,36 Ci/g
The metal curium is normally a solid at anything close to "normal" temperature. It melts at well in excess of 1000 °C. Curium is a synthetic trans-uranium element; it is not found in nature. A link can be found below.
- Uses for thermoelectric generators (Cm 242 and Cm 244); now these isotopes has some disadvantages. - Also for the analysis of rocks on other planets; curium is used as particle source for alpha particle X-ray spectrometers - experiments in chemistry/physics of superheavy elements
Iron is the most solid element in the Earth's core.
The element with the highest specific heat of any solid element is beryllium. It has a specific heat capacity of 1.825 J/g°C, which is higher than the specific heat capacities of other solid elements.
The element nickel is a solid at room temperature.
The specific activity of the isotope curium-242 is 3 400 Ci/g.
Curium is an artificial element, radioactive, unstable, metal , solid, a member of the actinides group.
Curium is a synthetic radioactive element and could exist in various states of matter depending on its specific form. However, under standard conditions, curium is most likely to exist in a solid state.
Curium is a solid metal.
Curium is a solid metal.
Curium is a solid metal.
Curium is a solid metal.
Curium is a solid metal.
At room temperature curium is a solid metal.
Curium is a solid, radioactive metal at room temperature.
At room temperature curium is a solid radioactive metal.
The metal curium is normally a solid at anything close to "normal" temperature. It melts at well in excess of 1000 °C. Curium is a synthetic trans-uranium element; it is not found in nature. A link can be found below.