Grams To Newtons Calculator (G ↔ N)

Grams To Newtons Calculator

To convert Grams to Newtons, input the mass in grams, the calculator automatically multiplies the mass by the Acceleration due to Gravity (9.80665 m/s²) and converts to Newtons.

For precise calculations, you can adjust the Gravity Value for different locations on Earth or other planetary bodies.

Grams To Newtons Conversion Chart

Mass (g)Force (N)Mass (g)Force (N)
10.0098150.04905
100.0981150.14715
200.1962250.24525
300.2943350.34335
400.3924450.44145
500.4905550.53955
600.5886650.63765
700.6867750.73575
800.7848850.83385
900.8829950.93195
1000.9811501.4715
2001.9622502.4525
3002.9433503.4335
4003.9244504.4145
5004.9055505.3955
6005.8866506.3765
7006.8677507.3575
8007.8488508.3385
9008.8299509.3195
10009.81

How to Convert Grams To Newtons?

To convert Grams to Newtons, first convert grams to kilograms by dividing by 1000. Then multiply by the acceleration due to gravity (9.80665 m/s²). This conversion accounts for the gravitational force acting on the mass, transforming a mass unit (grams) into a force unit (newtons).

  • Mass: 1500 grams
  • Calculation:
    Force (N) = 1500 * (9.80665 / 1000) = 14.710 N
  • Result: 14.710 Newtons.
  • Mass: 1200 grams
  • Calculation:
    Force (N) = 1200 * (9.80665 / 1000) = 11.768 N
  • Result: 11.768 Newtons.

Formula for Grams to Newtons Conversion

Basic Conversion Formula:

Newtons = (Grams ÷ 1000) × 9.80665
where:
9.80665 = Standard acceleration due to gravity (m/s²)
1000 = Conversion factor from grams to kilograms

Location-Specific Gravity:

Newtons = (Grams ÷ 1000) × g
where:
g = Local acceleration due to gravity

Alternative Units Conversion:

Kilogram-force = Newtons ÷ 9.80665
Pound-force = Newtons × 0.224809
Dyne = Newtons × 100,000

Example 1: Standard Mass

  • Input Mass = 1000 grams
  • Gravity = 9.80665 m/s²
  • Force = 9.81 Newtons
  • Application = Laboratory Measurement
  • Location = Sea Level

Example 2: Light Object

  • Input Mass = 100 grams
  • Gravity = 9.80665 m/s²
  • Force = 0.981 Newtons
  • Application = Small Parts Weight
  • Location = Standard Conditions

Example 3: Heavy Mass

  • Input Mass = 5000 grams
  • Gravity = 9.80665 m/s²
  • Force = 49.03 Newtons
  • Application = Industrial Weight
  • Location = Manufacturing

Example 4: High Altitude

  • Input Mass = 2000 grams
  • Gravity = 9.77 m/s²
  • Force = 19.54 Newtons
  • Application = Mountain Research
  • Location = High Elevation

Example 5: Precision Measurement

  • Input Mass = 750 grams
  • Gravity = 9.80665 m/s²
  • Force = 7.35 Newtons
  • Application = Scientific Research
  • Location = Laboratory Setting

What is Grams and Newtons?

Grams is a unit of mass in the metric system, representing one-thousandth of a kilogram. It measures the amount of matter in an object, independent of gravity or location. Common applications include Laboratory Measurements, Food Weight, and Small Object Mass.

Newtons is the SI unit of force, defined as the force needed to accelerate one kilogram of mass at a rate of one meter per second squared. One Newton equals one kilogram-meter per second squared (kg⋅m/s²).

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