Kilogram-meter meaning

A kilogram-meter is a unit of measurement for torque, representing the amount of force needed to rotate an object around an axis by one meter.


Kilogram-meter definitions

Word backwards retem-margolik
Part of speech The part of speech for "kilogram-meter" is a noun. It is a compound noun that represents a unit of measurement for torque.
Syllabic division ki-lo-gram-me-ter
Plural The plural of "kilogram-meter" is "kilogram-meters."
Total letters 13
Vogais (4) i,o,a,e
Consonants (6) k,l,g,r,m,t

The Kilogram-Meter: An In-Depth Look

What is a Kilogram-Meter?

A kilogram-meter is a unit of measurement used to quantify torque, which is the rotational force applied to an object. It is calculated by multiplying the force applied to an object by the distance from the point of rotation.

How is it Calculated?

To calculate the torque in kilogram-meters, you simply multiply the force in kilograms by the distance in meters. The formula is: Torque (kg-m) = Force (kg) x Distance (m).

Applications of the Kilogram-Meter

The kilogram-meter is commonly used in various fields such as engineering, physics, and mechanics. It is crucial for determining the effectiveness of motors, engines, and other rotational systems.

Why is it Important?

Understanding the concept of kilogram-meters is essential for engineers and technicians to ensure the proper functioning of machinery. It helps in assessing the strength and efficiency of a system.

Conclusion

In conclusion, the kilogram-meter is a vital unit of measurement for quantifying torque in rotational systems. It plays a significant role in the field of engineering and physics, providing valuable insights into the performance of machinery.


Kilogram-meter Examples

  1. The athlete lifted a weight of 10 kilogram-meters during the competition.
  2. The engineer calculated the torque in kilogram-meters required to operate the machine.
  3. The physicist measured the object's moment of inertia in kilogram-meters squared.
  4. The construction worker used a tool that measured force in kilogram-meters per second squared.
  5. The newton is equivalent to one kilogram-meter per second squared.
  6. The doctor recommended lifting weights to increase muscle strength in kilogram-meters.
  7. The car's engine produced a torque of 200 kilogram-meters.
  8. The scientist calculated the kinetic energy of the moving object in kilogram-meters squared per second squared.
  9. The textbook defined work as the product of force in newtons and distance in meters, measured in kilogram-meters.
  10. The gym instructor demonstrated the correct technique for lifting a weight of 5 kilogram-meters.


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  • Updated 02/04/2024 - 14:23:04