Datasets:

n0w0f
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scirex-text

row_uuid string	dataset_uuid string	dataset_name string	dataset_description string	keywords list	preferred_score string	metrics list	question_template string	question_template_input string	answer string	compute_function string
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-0	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-238", "start_atomic_number": 92, "start_mass_number": 238, "decay_chain": ["alpha", "beta", "alpha", "alpha", "beta", "gamma", "beta", "gamma", "alpha", "gamma"]}	87,222	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-1	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-238", "start_atomic_number": 92, "start_mass_number": 238, "decay_chain": ["beta", "alpha", "gamma", "gamma", "gamma", "gamma", "gamma", "beta", "gamma", "beta"]}	93,234	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-2	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["gamma", "alpha", "alpha", "alpha", "gamma", "alpha", "beta", "gamma", "alpha", "beta"]}	82,212	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-3	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-238", "start_atomic_number": 92, "start_mass_number": 238, "decay_chain": ["gamma", "beta", "beta", "gamma", "alpha", "gamma", "beta", "gamma", "beta", "beta"]}	95,234	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-4	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-238", "start_atomic_number": 92, "start_mass_number": 238, "decay_chain": ["alpha", "alpha", "gamma", "beta", "beta", "beta", "beta", "gamma", "gamma", "alpha"]}	90,226	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-5	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-238", "start_atomic_number": 92, "start_mass_number": 238, "decay_chain": ["beta", "gamma", "alpha", "alpha", "gamma", "beta", "gamma", "gamma", "beta", "gamma"]}	91,230	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-6	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["alpha", "alpha", "beta", "alpha", "alpha", "gamma", "gamma", "alpha", "alpha", "alpha"]}	77,204	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-7	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["gamma", "alpha", "gamma", "beta", "alpha", "alpha", "beta", "gamma", "alpha", "gamma"]}	84,216	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-8	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["alpha", "beta", "beta", "gamma", "alpha", "beta", "gamma", "alpha", "beta", "gamma"]}	88,220	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-9	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["beta", "alpha", "gamma", "alpha", "alpha", "gamma", "gamma", "alpha", "gamma", "gamma"]}	83,216	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-10	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["gamma", "gamma", "alpha", "alpha", "gamma", "alpha", "alpha", "gamma", "alpha", "beta"]}	81,212	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-11	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["gamma", "gamma", "gamma", "alpha", "gamma", "alpha", "beta", "alpha", "gamma", "alpha"]}	83,216	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-12	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Thorium-232", "start_atomic_number": 90, "start_mass_number": 232, "decay_chain": ["alpha", "gamma", "gamma", "alpha", "alpha", "alpha", "beta", "beta", "beta", "beta"]}	86,216	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-13	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Uranium-235", "start_atomic_number": 92, "start_mass_number": 235, "decay_chain": ["beta", "alpha", "beta", "gamma", "alpha", "alpha", "beta", "gamma", "alpha", "beta"]}	88,219	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...
61ae4efc-a519-4243-af7f-75511a6047e3-text-len10-14	61ae4efc-a519-4243-af7f-75511a6047e3-text-len10	decay_chain_text_len10	Calculate the final product of a radioactive decay chain of length 10.	[ "physics", "nuclear physics", "radioactivity", "decay chain", "stateful reasoning", "sequential processing" ]	exact_str_match	[ "exact_str_match" ]	An atom of {{start_isotope_name}} (Atomic Number={{start_atomic_number}}, Mass Number={{start_mass_number}}) undergoes the following sequence of radioactive decays: {{decay_chain}}. The rules for decay are: 1. Alpha decay: Atomic number decreases by 2, mass number decreases by 4. 2. Beta decay: Atomic number increases ...	{"start_isotope_name": "Plutonium-239", "start_atomic_number": 94, "start_mass_number": 239, "decay_chain": ["gamma", "alpha", "gamma", "beta", "alpha", "alpha", "beta", "gamma", "alpha", "gamma"]}	88,223	def calculate_solution(template_input: dict) -> str: """ Calculates the final isotope after a series of radioactive decays, including alpha, beta, and gamma. Returns the result as a comma-separated string: "Z,A". """ z_initial = template_input['start_atomic_number'] a_initial = templat...

Configuration: `particle_energy_2d`

Type: Text-only Examples: 20 Task: Energy computation for 2D particle systems

Description: Calculate the total energy of a system with 10 particles in a 10×10 Angstrom box. The energy calculation involves:

Particle Energy: Individual energy contribution from each particle
Pairwise Interaction Energy: For particles within 5 Angstrom cutoff, interaction energy = distance × (energy_A + energy_B)

Usage:

from datasets import load_dataset

dataset = load_dataset("particle_energy_computation_text", name="particle_energy_2d")
example = dataset['train'][0]
print(example)

Data Fields:

uuid: Unique identifier
examples: Problem data (JSON string)
description: Task description

Downloads last month: 71

Configuration: particle_energy_2d

Configuration: `particle_energy_2d`