Delisle to Newton Converter

Convert delisle to newton instantly with our free temperature conversion calculator. Uses the exact conversion formula for accurate results.

How to Convert Delisle to Newton

To convert a temperature from delisle to newton, use the following formula:

°N = 33 − °De × 11/50

This formula accounts for both the different degree sizes and the different zero points of the Delisle and Newton temperature scales.

Example: Convert 0 °De to newton.

Using the formula: °N = 33 − °De × 11/50

Substituting 0 °De: result = 33 °N

Therefore, 0 °De equals 33 °N.

What Is Delisle?

The Delisle scale (symbol: °De) is a temperature scale invented in 1732 by the French astronomer Joseph-Nicolas Delisle. It is notable for being an inverted scale — higher Delisle values correspond to colder temperatures, the opposite of most other temperature scales. On the Delisle scale, the boiling point of water is defined as 0 °De, and the freezing point of water is 150 °De. This means that as temperature increases, the Delisle value decreases, and vice versa. The conversion between Celsius and Delisle is: °De = (100 − °C) × 3/2. So 100 °C (boiling water) = 0 °De, 0 °C (freezing water) = 150 °De, and −100 °C = 300 °De. The Delisle scale was used in Russia for about a century, particularly at the St Petersburg observatory. The Russian polymath Mikhail Lomonosov used a modified version of the Delisle scale in his scientific work. It was eventually replaced by the Celsius and Fahrenheit scales. Today, the Delisle scale is primarily of historical interest and is encountered in the history of science and in temperature conversion exercises. It serves as an interesting example of an inverted temperature scale.

Key delisle equivalences:

0 °De = 100 °C = 212 °F (boiling point of water)
150 °De = 0 °C = 32 °F (freezing point of water)
94.5 °De = 37 °C = 98.6 °F (body temperature)
176.67 °De = −17.78 °C = 0 °F
559.73 °De = −273.15 °C = 0 K (absolute zero)

What Is Newton?

The Newton scale (symbol: °N) is a temperature scale devised by Sir Isaac Newton around 1701. It is one of the earliest attempts to create a quantitative temperature scale, predating both the Fahrenheit and Celsius scales. Newton defined his scale based on two reference points: the freezing point of water at 0 °N and the boiling point of water at 33 °N. This means the Newton scale divides the range between freezing and boiling water into 33 equal parts, as opposed to 100 for Celsius and 180 for Fahrenheit. The conversion between Celsius and Newton is: °N = °C × 33/100. So 0 °C = 0 °N, 100 °C = 33 °N, and 37 °C (body temperature) ≈ 12.21 °N. Newton described his scale in the anonymous paper “Scala graduum Caloris” (Scale of the Degrees of Heat), published in the Philosophical Transactions of the Royal Society in 1701. He used linseed oil as his thermometric substance rather than mercury. Today, the Newton temperature scale is entirely obsolete and is only encountered in the history of science, physics education, and temperature conversion exercises. It should not be confused with the newton (N), which is the SI unit of force.

Key newton equivalences:

0 °N = 0 °C = 32 °F (freezing point of water)
33 °N = 100 °C = 212 °F (boiling point of water)
12.21 °N = 37 °C = 98.6 °F (body temperature)
−90.14 °N = −273.15 °C = 0 K (absolute zero)
1 °N change = 100/33 °C change ≈ 3.03 °C change

Understanding Temperature Scales

Temperature is a fundamental physical quantity that measures the average kinetic energy of the particles in a substance. Different temperature scales were developed at different times in history, each with its own reference points and degree sizes.

Unlike most other unit conversions (length, mass, etc.) which involve simple multiplication, temperature conversions require both multiplication/division AND addition/subtraction because temperature scales have different zero points.

The Six Temperature Scales

Celsius (°C): Defined by the freezing (0 °C) and boiling (100 °C) points of water. The most widely used scale worldwide for everyday and scientific purposes.
Fahrenheit (°F): Defined with water freezing at 32 °F and boiling at 212 °F (180 degrees apart). Primarily used in the United States.
Kelvin (K): The SI absolute temperature scale. Zero kelvin (0 K = −273.15 °C) is absolute zero. Uses Celsius-sized degrees. Standard in science.
Rankine (°R): An absolute temperature scale using Fahrenheit-sized degrees. 0 °R = 0 K = −459.67 °F. Used in some US engineering applications.
Delisle (°De): A historical inverted scale where higher values mean colder temperatures. Water boils at 0 °De and freezes at 150 °De. Invented by Joseph-Nicolas Delisle in 1732.
Newton (°N): A historical scale devised by Isaac Newton around 1701. Water freezes at 0 °N and boils at 33 °N. Proportional to Celsius (°N = °C × 33/100).

Key Reference Temperatures

Absolute zero: 0 K = −273.15 °C = −459.67 °F = 0 °R. The lowest possible temperature.
Water freezing: 273.15 K = 0 °C = 32 °F = 491.67 °R = 150 °De = 0 °N
Human body: 310.15 K = 37 °C = 98.6 °F = 558.27 °R = 94.5 °De = 12.21 °N
Water boiling: 373.15 K = 100 °C = 212 °F = 671.67 °R = 0 °De = 33 °N
Scales intersect: −40 °C = −40 °F (the only point where Celsius and Fahrenheit are equal)

Why Temperature Conversion Is Different

Most unit conversions (metres to feet, grams to ounces) involve multiplying by a single conversion factor. Temperature is different because the scales have different zero points. Converting between Celsius and Fahrenheit, for example, requires both multiplication (to account for different degree sizes: 180 °F vs 100 °C) and addition (to account for the offset: 32 °F = 0 °C).

The exceptions are the purely proportional pairs: Celsius–Newton (°N = °C × 33/100) and Kelvin–Rankine (°R = K × 9/5), where the zero points are the same (0 °C = 0 °N, 0 K = 0 °R).

Tips for Temperature Conversions

The quick Celsius ↔ Fahrenheit estimate: double the Celsius value and add 30. For example, 20 °C ≈ 2 × 20 + 30 = 70 °F (actual: 68 °F). Good enough for everyday use.
Remember the key points: 0 °C = 32 °F (freezing), 100 °C = 212 °F (boiling), 37 °C = 98.6 °F (body temp), −40 °C = −40 °F.
For Celsius to Kelvin, simply add 273.15. For Fahrenheit to Rankine, add 459.67. These are the easiest temperature conversions.
Kelvin and Rankine are “absolute” scales starting at absolute zero. They cannot have negative values for physically meaningful temperatures.
The Delisle scale runs backwards: higher numbers mean colder. 0 °De is hot (boiling water), 150 °De is cold (freezing water).
The Newton temperature scale (°N) should not be confused with the newton (N), which is the SI unit of force. Context makes the distinction clear.
Temperature differences convert differently from absolute temperatures. A change of 1 °C = 1 K = 1.8 °F = 1.8 °R. But an absolute temperature of 1 °C ≠ 1.8 °F.
In scientific contexts, always use kelvin for thermodynamic calculations (gas laws, radiation, entropy). Celsius is acceptable for temperature differences and everyday science.

Delisle to Newton Conversion Table

The following table shows conversions from delisle to newton.

Delisle (°De)	Newton (°N)
0 °De	33 °N
15 °De	29.7 °N
30 °De	26.4 °N
45 °De	23.1 °N
60 °De	19.8 °N
75 °De	16.5 °N
94.5 °De	12.21 °N
100 °De	11 °N
105 °De	9.9 °N
120 °De	6.6 °N
135 °De	3.3 °N
150 °De	0 °N
165 °De	-3.3 °N
180 °De	-6.6 °N
195 °De	-9.9 °N
210 °De	-13.2 °N
225 °De	-16.5 °N
250 °De	-22 °N
300 °De	-33 °N
375 °De	-49.5 °N
450 °De	-66 °N
525 °De	-82.5 °N
600 °De	-99 °N