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API · /centripetal-api

Circular Motion API

salutare 3,462 Abbonati

Uniform circular-motion physics as an API, computed locally and deterministically. The centripetal-force endpoint computes the centripetal acceleration a = v²/r = ω²·r — always pointing toward the centre — and the centripetal force F = m·a that holds a body on its circular path, from the mass, the radius and either the linear or the angular velocity, and reports the equivalent g-force. The angular endpoint converts between every way of describing rotation — angular velocity (rad/s), revolutions per minute, frequency, period and, given a radius, the linear (tangential) velocity — using ω = 2π·f = 2π/T = v/r. The centrifuge endpoint computes the relative centrifugal force (RCF, in g) of a centrifuge rotor from its speed in rpm and radius, RCF = ω²·r / g, or inverts it to give the rpm needed to reach a target RCF. Masses are in kg, radii in m (mm for the centrifuge), velocities in m/s, angular velocities in rad/s and forces in N. Everything is computed locally and deterministically, so it is instant and private. Ideal for physics-education, mechanical, automotive, lab-centrifuge and amusement-ride app developers, rotational-motion and g-force tools, and STEM teaching. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 endpoints. This is uniform circular motion; for gravitational orbits use a gravitation API, for a vehicle on a banked curve a banked-curve API and for pendulum oscillation a pendulum API.

#centripetal #circular-motion #angular-velocity #centrifuge #physics #developer-tools
api.oanor.com/centripetal-api
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/api/centripetal-api/openapi.json
/api/centripetal-api/llms.txt

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Circular Motion API — live data on the oanor API marketplace

API salute

salutare
Tempo di attività
100.00%
Sondaggi del server · 24 ore su 24
Latenza media
72 ms
Sondaggi del server · 24 ore su 24
Abbonati
3,462
attiva
Chiamate totali
76
ultimi 7 giorni
status Pagina di stato completa → · 12 sonde/24h

Prezzi

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Free

Gratis

  • 4,000 chiamate/mese
  • 2 richieste/secondo
  • Tetto rigido (429 sopra la quota, nessuna eccedenza)
  • 4,000 calls/month
  • 2 req/sec
  • Centripetal force + angular + centrifuge
  • No credit card
Accedi per abbonarti

Starter

€4.00 /mese

  • 36,000 chiamate/mese
  • 6 richieste/secondo
  • Tetto rigido (429 sopra la quota, nessuna eccedenza)
  • 36,000 calls/month
  • 6 req/sec
  • rpm/rad/s/Hz conversions, g-force
  • Email support
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Pro

€13.00 /mese

  • 210,000 chiamate/mese
  • 15 richieste/secondo
  • Tetto rigido (429 sopra la quota, nessuna eccedenza)
  • 210,000 llamadas/mes
  • 15 req/seg
  • Tuberías mecánicas y de centrífuga
  • Soporte prioritario
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Mega

€42.00 /mese

  • 1,250,000 chiamate/mese
  • 40 richieste/secondo
  • Tetto rigido (429 sopra la quota, nessuna eccedenza)
  • 1,250,000 llamadas/mes
  • 40 req/seg
  • Escala de plataforma
  • SLA dedicado
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Banked Curve API — oanor API marketplace

Banked Curve API

Banked-curve and circular-motion dynamics as an API, computed locally and deterministically. The speed endpoint takes the radius of a curve and its banking (bank) angle and returns the frictionless ideal (design) speed at which the banking alone supplies the centripetal force, v = √(r·g·tanθ); give a coefficient of friction as well and it also returns the maximum safe speed before the vehicle slides outward up the bank, v = √(r·g·(tanθ+μ)/(1−μ·tanθ)), and the minimum speed before it slides inward down the bank — every speed in metres per second, km/h, mph and knots, plus the centripetal acceleration. The bank-angle endpoint inverts this: from a design speed and radius it returns the ideal banking angle θ = atan(v²/(r·g)) and the equivalent superelevation as a ratio and a percentage, the cant a road or railway needs so no side friction is used at that speed. The flat-curve endpoint handles an unbanked curve from the coefficient of friction: the maximum cornering speed v = √(μ·r·g) for a given radius and the minimum radius v²/(μ·g) for a given speed. Gravity defaults to standard 9.80665 m/s² and can be overridden. Everything is computed locally and deterministically, so it is instant and private. Ideal for road and racetrack design tools, vehicle-dynamics and driving-simulator apps, civil and transportation engineering, and physics education. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 endpoints. This is curve banking and cornering dynamics; for projectile and SUVAT kinematics use a physics API.

api.oanor.com/bankedcurve-api

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api.oanor.com/isotopes-api

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Hot Air Balloon Lift API

Hot-air-balloon lift maths as an API, computed locally and deterministically — the thermal-lift, envelope-temperature and air-density numbers a balloon pilot, designer or physics teacher works a flight out with. The lift endpoint gives the buoyant lift from heating the air: gross lift = envelope volume × (outside air density − inside air density), the densities from the ideal-gas law — a 2,500 m³ envelope at 100 °C on a 15 °C day lifts about 698 kg gross, from which you subtract the envelope, basket, burner and fuel for the payload, and the hotter the air and colder the day the more it lifts. The required-temp endpoint inverts it: to carry a target lift the inside air must reach a particular density and so a particular temperature, with a check that it stays under the ~120 °C that nylon envelopes can take — the everyday pre-flight question of whether the balloon can lift today's crew and fuel. The air-density endpoint gives the moist-air density ρ = (P − 0.378·Pv) ÷ (R·T), and explains the counter-intuitive fact that humid air is LESS dense than dry air, slightly cutting the lift. Everything is computed locally and deterministically, so it is instant and private. Ideal for ballooning and aviation tools, STEM and physics-education apps, and buoyancy calculators. Pure local computation — no key, no third-party service, instant. Idealised dry-lift model. 3 compute endpoints. For Archimedes flotation in water use a buoyancy API; for party-balloon helium lift a balloon API.

api.oanor.com/hotairballoon-api

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Vacuum-Technologie-Mathematik als API, lokal und deterministisch berechnet – die Pumpdown-, Siede- und Druckzahlen, mit denen ein Labortechniker, Verfahrensingenieur oder Vakuum-Hobbyist arbeitet. Der Pumpdown-Endpunkt liefert die ideale Zeit zum Evakuieren einer Kammer, t = (Volumen ÷ Pumpgeschwindigkeit) × ln(Start ÷ Zieldruck) – eine 10-Liter-Kammer mit einer 5 L/s-Pumpe fällt theoretisch in etwa 14 Sekunden von 1000 auf 1 mbar, obwohl Ausgasung und fallende Pumpgeschwindigkeit die reale Niederdruckphase verlängern. Der Siedepunkt-Endpunkt liefert die Temperatur, bei der Wasser unter reduziertem Druck siedet, basierend auf der Antoine-Gleichung: etwa 100 °C auf Meereshöhe, aber nur ~52 °C bei 100 mbar und ~46 °C bei 100 mbar – die Physik hinter Vakuumentgasung, Gefriertrocknung und Höhenkochen. Der Level-Endpunkt wandelt einen Druck in die gängigen Vakuumeinheiten (mbar, Torr/mmHg, Pa, kPa, inHg, atm, psi) um, meldet den prozentualen Vakuumgrad relativ zur Atmosphäre und benennt das Regime – Grobvakuum, Feinvakuum, Hochvakuum oder Ultrahochvakuum – damit Sie wissen, welche Pumpe und welches Messgerät die Aufgabe benötigt. Alles wird lokal und deterministisch berechnet, daher ist es sofort und privat. Ideal für Vakuumlabor- und Prozessanwendungen, Pumpenauslegungs- und Entgasungswerkzeuge, Halbleiter- und Beschichtungsrechner sowie Physikunterricht. Reine lokale Berechnung – kein Key, kein Drittanbieter-Service, sofort. Live, nichts gespeichert. 3 Compute-Endpunkte. Ideale Schätzungen – reale Systeme werden durch Ausgasung und Lecks verlangsamt.

api.oanor.com/vacuum-api

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Come ottengo una chiave API per Circular Motion API?
Registrati gratuitamente su oanor.com, genera una chiave API dalla dashboard sviluppatore e chiama Circular Motion API con l'header x-oanor-key. Nessuna carta di credito richiesta per il piano gratuito.
Qual è il limite di velocità di Circular Motion API?
Il piano gratuito consente 1 richiesta al secondo. I piani a pagamento arrivano fino a 50 richieste al secondo nel piano Mega. I limiti rigorosi restituiscono HTTP 429 oltre la quota — nessuna spesa imprevista.
Quanto costa Circular Motion API?
Circular Motion API ha un piano gratuito con 100 chiamate / mese. I piani a pagamento partono da €4.00 / mese con quote più alte e limiti di velocità più rapidi.
Posso cancellare l'abbonamento in qualsiasi momento?
Sì. I piani sono fatturati mensilmente e puoi cancellare in qualsiasi momento dalla dashboard di fatturazione. Nessun contratto a lungo termine e nessuna penale di cancellazione.
Circular Motion API è conforme al GDPR?
Tutte le richieste a Circular Motion API passano attraverso il nostro gateway in UE. La tua chiave upstream non lascia mai il nostro server e nessun dato personale viene condiviso con il fornitore upstream oltre alla richiesta inviata.

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curl https://api.oanor.com/centripetal-api/SOME_PATH \
  -H "x-oanor-key: oanor_test_..."
const res = await fetch("https://api.oanor.com/centripetal-api/SOME_PATH", {
  headers: { "x-oanor-key": "oanor_test_..." }
});
const data = await res.json();
$ch = curl_init("https://api.oanor.com/centripetal-api/SOME_PATH");
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
curl_setopt($ch, CURLOPT_HTTPHEADER, ["x-oanor-key: oanor_test_..."]);
$response = curl_exec($ch);
import requests
r = requests.get(
    "https://api.oanor.com/centripetal-api/SOME_PATH",
    headers={"x-oanor-key": "oanor_test_..."},
)
print(r.json())

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