##### Free Converter

Formular

[Value of am/min²] = [Value of dam/h²] * 2.7777777777498E+15

[Value of dam/h²] = [Value of am/min²] / 2.7777777777498E+15

##### dam/h²(decametre per hour squared)

Unit dam/h² (decameter per hour squared) is a unit of acceleration that describes the change in velocity of an object over time. In this case, the unit represents the acceleration rate at which an object's speed changes by a certain number of decameters per hour for every hour that passes.

A decameter (dam) is a unit of length measurement that is equal to 10 meters. The hour squared (h²) refers to the time interval in which the acceleration measurement is being taken, represented in hours. Therefore, unit dam/h² represents the change in an object's speed in increments of decameters (10 meters) every hour squared.

For example, let's say an object has an acceleration of 1 dam/h². This means that for every hour that passes, the object's speed is increasing by 10 meters per hour. So if the object started at 0 m/h, it would travel at 10 m/h after 1 hour, 20 m/h after 2 hours, and so on.

In the field of physics, acceleration is an important concept related to the study of motion, particularly when analyzing the forces acting on objects and their interactions with their surroundings.

##### am/min²(attometre per minute squared)

Unit am/min² (attometre per minute squared) is a unit of acceleration used in the scientific field, specifically in Physics. Acceleration is the rate of change of velocity of an object concerning time. In this unit, acceleration is represented in attometres per minute squared, where one attometre (am) is equal to 10^-18 metres, which represents an extremely small distance.

In terms of acceleration, when an object's velocity is increased or decreased by 1 attometre per minute², it means that over the course of one minute, the change in its velocity is 1 attometre per minute with respect to its position. Since the unit involves an extremely small distance (attometres) and relatively larger duration (minutes), it is usually applicable when observing phenomena at highly precise and minute scales, such as in nanotechnology or atomic and subatomic movements.

##### dam/h² and am/min² Conversion Mapping Table

dam/h² | am/min² |
---|---|

1 | 2.777778E+15 |

2 | 5.555556E+15 |

3 | 8.333333E+15 |

4 | 1.111111E+16 |

5 | 1.388889E+16 |

6 | 1.666667E+16 |

7 | 1.944444E+16 |

8 | 2.222222E+16 |

9 | 2.500000E+16 |

10 | 2.777778E+16 |

20 | 5.555556E+16 |

25 | 6.944444E+16 |

50 | 1.388889E+17 |

100 | 2.777778E+17 |

200 | 5.555556E+17 |

250 | 6.944444E+17 |

500 | 1.388889E+18 |

1000 | 2.777778E+18 |

2000 | 5.555556E+18 |

2500 | 6.944444E+18 |

5000 | 1.388889E+19 |

10000 | 2.777778E+19 |

am/min² | dam/h² |
---|---|

1 | 3.600000E-16 |

2 | 7.200000E-16 |

3 | 1.080000E-15 |

4 | 1.440000E-15 |

5 | 1.800000E-15 |

6 | 2.160000E-15 |

7 | 2.520000E-15 |

8 | 2.880000E-15 |

9 | 3.240000E-15 |

10 | 3.600000E-15 |

20 | 7.200000E-15 |

25 | 9.000000E-15 |

50 | 1.800000E-14 |

100 | 3.600000E-14 |

200 | 7.200000E-14 |

250 | 9.000000E-14 |

500 | 1.800000E-13 |

1000 | 3.600000E-13 |

2000 | 7.200000E-13 |

2500 | 9.000000E-13 |

5000 | 1.800000E-12 |

10000 | 3.600000E-12 |