| 1. | The atomic radius of bohrium is expected to be around 128 pm.
|
| 2. | The atomic radius of hassium is expected to be around 126 pm.
|
| 3. | The atomic radius of meitnerium is expected to be around 128 pm.
|
| 4. | Moving left to right across a period, atomic radius usually decreases.
|
| 5. | The atomic radius of darmstadtium is expected to be around 132 pm.
|
| 6. | The atomic radius of roentgenium is expected to be around 138 pm.
|
| 7. | As a result, the electron cloud contracts and the atomic radius decreases.
|
| 8. | An atom with a relatively large atomic radius tends to be a better reductant.
|
| 9. | Usually, as a particular subshell is filled in a period, atomic radius decreases.
|
| 10. | For comparison, the atomic radius of an unconstrained silicon is 0.11 nm.
|
मोबाइल