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tensile yield strength of ferromagnetic elements

Input interpretation

ferromagnetic elements | tensile yield strength
ferromagnetic elements | tensile yield strength

Results

cobalt | 225 MPa (megapascals) gadolinium | 173 MPa (megapascals) iron | 50 MPa (megapascals) nickel | 59 MPa (megapascals)
cobalt | 225 MPa (megapascals) gadolinium | 173 MPa (megapascals) iron | 50 MPa (megapascals) nickel | 59 MPa (megapascals)
ferromagnetic elements | tensile yield strength | 116 MPa (megapascals) (median)
ferromagnetic elements | tensile yield strength | 116 MPa (megapascals) (median)

Ranked values

| | visual | ratios | 4 | iron | | 0.22 | 1 3 | nickel | | 0.26 | 1.2 2 | gadolinium | | 0.77 | 3.5 1 | cobalt | | 1 | 4.5
| | visual | ratios | 4 | iron | | 0.22 | 1 3 | nickel | | 0.26 | 1.2 2 | gadolinium | | 0.77 | 3.5 1 | cobalt | | 1 | 4.5

Unit conversions for median tensile yield strength 116 MPa

0.12 GPa (gigapascals)
0.12 GPa (gigapascals)
1.2×10^8 Pa (pascals)
1.2×10^8 Pa (pascals)
1.2×10^8 N/m^2 (newtons per square meter)
1.2×10^8 N/m^2 (newtons per square meter)
1140 atm (atmospheres) (unit officially deprecated)
1140 atm (atmospheres) (unit officially deprecated)
16800 psi (pounds-force per square inch)
16800 psi (pounds-force per square inch)

Comparison for median tensile yield strength 116 MPa

≈ ( 0.001 ≈ 1/860 ) × theoretical tensile strength of a carbon nanotube ( ≈ 100 GPa )
≈ ( 0.001 ≈ 1/860 ) × theoretical tensile strength of a carbon nanotube ( ≈ 100 GPa )

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