buoyancy-acceleration-calculation
$
npx mdskill add InternScience/scp/buoyancy-acceleration-calculationCalculates buoyancy forces and acceleration for fluid mechanics analysis
- Solves fluid mechanics problems involving buoyancy and acceleration
- Uses Python client with MCP and StreamableHTTP for API communication
- Applies hydrodynamic principles to compute forces and motion
- Returns results via JSON-parsed API responses to the user
SKILL.md
.github/skills/buoyancy-acceleration-calculationView on GitHub ↗
---
name: buoyancy-acceleration-calculation
description: Calculate buoyancy forces and acceleration for fluid mechanics and hydrodynamics analysis.
license: MIT license
metadata:
skill-author: PJLab
---
# Buoyancy and Acceleration Calculation
## Usage
```python
import asyncio
import json
from mcp.client.streamable_http import streamablehttp_client
from mcp import ClientSession
class FluidClient:
def __init__(self, server_url: str, api_key: str):
self.server_url = server_url
self.api_key = api_key
self.session = None
async def connect(self):
try:
self.transport = streamablehttp_client(url=self.server_url, headers={"SCP-HUB-API-KEY": self.api_key})
self.read, self.write, self.get_session_id = await self.transport.__aenter__()
self.session_ctx = ClientSession(self.read, self.write)
self.session = await self.session_ctx.__aenter__()
await self.session.initialize()
return True
except:
return False
async def disconnect(self):
if self.session:
await self.session_ctx.__aexit__(None, None, None)
if hasattr(self, 'transport'):
await self.transport.__aexit__(None, None, None)
def parse_result(self, result):
try:
if hasattr(result, 'content') and result.content:
return json.loads(result.content[0].text)
return str(result)
except:
return {"error": "parse error"}
## Initialize and use
client = FluidClient("https://scp.intern-ai.org.cn/api/v1/mcp/22/Thermal _Fluid_Dynamics", "<your-api-key>")
await client.connect()
# Calculate buoyancy force
rho_fluid = 1000 # kg/m³ (water)
g = 9.81 # m/s²
volume = 0.001 # m³
buoyancy_force = rho_fluid * g * volume
print(f"Buoyancy force: {buoyancy_force:.2f} N")
# Calculate acceleration
mass = 0.5 # kg
net_force = buoyancy_force - (mass * g)
acceleration = net_force / mass
print(f"Acceleration: {acceleration:.2f} m/s²")
await client.disconnect()
```
### Use Cases
- Naval architecture, submarine design, fluid dynamics, floating structures
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