Status: True
Assertion
The Earth is flat.
Reasoning
The physical laws of gravity and motion do apply universally across space, allowing astronomers to understand planetary formation and interaction with mathematical models consistent with these universal laws. This supports the oblate spheroid shape due to its rotational effects on mass distribution. Earth’s observable curvature from a great distance also suggests an oblate spheroidal geometry rather than a flat surface. Light behavior during phenomena like eclipses and refraction through atmospheric layers further substantiates the three-dimensional nature of space, aligning with an oblate spheroid model where celestial bodies appear to orbit around central points. Therefore, based on these scientific observations and principles, the statement is classified as True.
Assumptions
The following bullet points summarize the key assumptions underlying the scientific consensus that Earth is an oblate spheroid:
– The physical laws of gravity and motion apply universally across space, allowing us to understand how celestial bodies like planets form and interact with each other.
– Observations made from different vantage points on Earth (e.g., the horizon) consistently show a curved line rather than a flat one when viewed over long distances.
– The way light behaves—including its reflection, refraction, and bending during a total solar eclipse—is consistent with it traveling through space in three dimensions around spherical objects like Earth.
– Observations of the night sky show celestial bodies (like stars) appearing to revolve around Earth in predictable patterns that are best explained by an observer on a rotating, curved surface rather than flat Earth models.
– The existence and properties of other planets within our solar system also support the idea of a round planetary body; for example, Venus’s atmospheric phenomena can only be adequately modeled with it being a sphere.
– The way tides function on Earth—caused by gravitational interactions
Fact Checker Output
<|assistant|> – True: The physical laws of gravity and motion do apply universally across space, which allows astronomers to understand planetary formation and interaction through mathematical models and observations consistent with these universal laws. This supports the oblate spheroid shape due to its rotational effects on mass distribution.
– True: Observations from Earth consistently show a curved line at great distances when looking towards horizons or across large bodies of water, which aligns with Earth’s round (oblate spheroidal) geometry rather than being flat.
– True: The behavior of light during various phenomena like eclipses and the refraction through Earth’s atmosphere demonstrates a three-dimensional space around spherical objects. This supports an oblate spheroid model, as total solar eclipses can only be explained if the Sun, Moon, and Earth are aligned in a curved pathway.
– True: The movements of celestial bodies within our night sky exhibit patterns that are best explained by observing from a rotating sphere rather than assuming a flat surface. Planets appear to orbit around a central point (like the Sun), indicating they’re viewing this motion from an ob
Model Used
microsoft/Phi-3-mini-4k-instruct-gguf
Script Name
fact_checker_mongodb.py
Script Code
import os
import sys
import requests
from langchain_openai.llms import OpenAI
from langchain.prompts import PromptTemplate
from dotenv import load_dotenv
from statements import get_random_statement
from mongodb_helper import insert_record # Import MongoDB helper functions
from wordpress_helper import create_wordpress_post # Import WordPress helper functions
import html
# Load environment variables from .env file
load_dotenv()
def fact_check(assertion):
llm = OpenAI(temperature=0.7, model=os.getenv("MODEL_NAME"))
# Define the prompt templates
assertion_template = """{assertion}\n\n"""
assertion_prompt = PromptTemplate(input_variables=["assertion"], template=assertion_template)
assumptions_template = """Here is a statement:
{statement}
Make a bullet point list of the assumptions required to support the above statement.\n\n"""
assumptions_prompt = PromptTemplate(input_variables=["statement"], template=assumptions_template)
fact_checker_template = """Here is a bullet point list of assertions:
{assertions}
For each assumption, determine whether it is true or false. Explain your reasoning.\n\n"""
fact_checker_prompt = PromptTemplate(input_variables=["assertions"], template=fact_checker_template)
answer_template = """
Here is the information to classify the statement:
{facts}
Based on the above information, how would you classify the statement? Respond with one of the following options followed by a colon and space:
- True: [Explanation]
- False: [Explanation]
- Debatable: [Explanation]
"""
answer_prompt = PromptTemplate(input_variables=["facts"], template=answer_template)
# Format prompts and extract the string content
formatted_assertion = assertion_prompt.format_prompt(assertion=assertion).text
assertion_output = llm.invoke(formatted_assertion)
formatted_assumptions = assumptions_prompt.format_prompt(statement=assertion_output).text
assumptions_output = llm.invoke(formatted_assumptions)
formatted_fact_checker = fact_checker_prompt.format_prompt(assertions=assumptions_output).text
fact_checker_output = llm.invoke(formatted_fact_checker)
formatted_answer = answer_prompt.format_prompt(facts=fact_checker_output).text
final_output = llm.invoke(formatted_answer)
return {
"assertion_output": assertion_output,
"assumptions_output": assumptions_output,
"fact_checker_output": fact_checker_output,
"final_output": final_output,
}
def extract_status_and_reasoning(final_output):
llm = OpenAI(temperature=0.7, model=os.getenv("MODEL_NAME"))
extraction_template = """
Here is a final output of a fact-checking process:
{final_output}
Based on the above text, what is the classification of the statement? Respond with one of the following options followed by a colon and space:
- True: [Explanation]
- False: [Explanation]
- Debatable: [Explanation]
"""
extraction_prompt = PromptTemplate(input_variables=["final_output"], template=extraction_template)
formatted_prompt = extraction_prompt.format_prompt(final_output=final_output).text
extraction_output = llm.invoke(formatted_prompt).strip()
if "True:" in extraction_output:
status = "True"
reasoning = extraction_output.split("True:", 1)[1].strip()
elif "False:" in extraction_output:
status = "False"
reasoning = extraction_output.split("False:", 1)[1].strip()
elif "Debatable:" in extraction_output:
status = "Debatable"
reasoning = extraction_output.split("Debatable:", 1)[1].strip()
else:
status = "Unknown"
reasoning = extraction_output
return status, reasoning
if __name__ == "__main__":
if len(sys.argv) > 1:
assertion = sys.argv[1]
else:
assertion = get_random_statement()
print(assertion)
submission = fact_check(assertion)
# Print the detailed outputs to inspect their structure
for key, value in submission.items():
print(f"{key}: {value}")
# Extract the final output for status determination and reasoning
final_output = submission['final_output']
status, reasoning = extract_status_and_reasoning(final_output)
# Print the final status and reasoning
print(final_output)
print(f"Status: {status}")
print(f"Reasoning: {reasoning}")
# Record the result in MongoDB
try:
print("Attempting to insert record into MongoDB...")
insert_record(
script_name=__file__,
script_code=html.escape(open(__file__).read()),
assertion=assertion,
status=status,
submission=submission, # Store the entire submission for detailed analysis
reasoning=reasoning,
model=os.getenv("MODEL_NAME")
)
print("Record inserted into MongoDB successfully.")
except Exception as e:
print(f"Failed to insert record into MongoDB: {e}")
# Create a blog post on WordPress
blog_title = f"Fact Check: {assertion}"
blog_content = f"""
<h1>Status: {status}</h1>
<h2>Assertion</h2>
<p>{assertion}</p>
<h2>Reasoning</h2>
<p>{reasoning}</p>
<h3>Assumptions</h3>
<p>{submission['assumptions_output']}</p>
<h3>Fact Checker Output</h3>
<p>{submission['fact_checker_output']}</p>
<h4>Model Used</h4>
<p>{os.getenv("MODEL_NAME")}</p>
<h4>Script Name</h4>
<p>fact_checker_mongodb.py</p>
<h4>Script Code</h4>
<pre>{html.escape(open(__file__).read())}</pre>
"""
create_wordpress_post(blog_title, blog_content, status)
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