Part (a) What is the resultant force in terms of the force vectors F₁ and F₂? Part (b) What is the magnitude of an equal and opposite force, F3, which balances the first two forces? F3=438 ✔Correct! Part (c) Given your observations from parts a and b, if working with vectors in 3 dimensions (1, 3, k): what will the normalizing term (i − j + k) √n the two vectors F₁ = C₁ n=3 ✓ Correct! (i - 3 + k) √n F₁ = C₁ -N and F₂ = C₂ Part (d) Given the normalizing term n found in the previous part in 3 dimensions (2, 3, k); what will the magnitude of the resultant ve be in terms of the constants c₁ and c₂. (i − j+ k) n The vectors in question are. N. N and F₂ = C₂ (i −3+ k) √n

Please answer part a and part d

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Two forces of F₁ = 63 n=3 ✓ Correct! Part (a) What is the resultant force in terms of the force vectors F₁ and F₂? Part (b) What is the magnitude of an equal and opposite force, F3, which balances the first two forces? F3=438 ✔Correct! (1-2) No √2 Part (c) Given your observations from parts a and b, if working with vectors in 3 dimensions (î, ĵ, k): what will the normalizing term n be for (²-3+k) the two vectors F₁ = C₁ (1-3+k). N and F₂ = C₂ √n √n be in terms of the constants c₁ and ₂. The vectors in question are F₁ = N and F₂ = 375 = C1 (1-2) √2 Part (d) Given the normalizing term n found in the previous part in 3 dimensions (2, 3, k); v ; what will the magnitude of the resultant vector 1 | Fres | ( i − j + k) √n N and F₂ = C₂ N act on an object. N. (1-3+k) √n