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Question Number 19976 by Tinkutara last updated on 19/Aug/17

Three vectors A^(→) , B^(→) and C^(→) add up to zero. Find which is false. (a) (A^(→) ×B^(→) )×C^(→) is not zero unless B^(→) , C^(→) are parallel (b) (A^(→) ×B^(→) )∙C^(→) is not zero unless B^(→) , C^(→) are parallel (c) If A^(→) , B^(→) , C^(→) define a plane, (A^(→) ×B^(→) ×C^(→) ) is in that plane (d) (A^(→) ×B^(→) ).C^(→) = ∣A^(→) ∣∣B^(→) ∣∣C^(→) ∣ → C^2 = A^2 + B^2

$$\mathrm{Three}\:\mathrm{vectors}\:\overset{\rightarrow} {{A}},\:\overset{\rightarrow} {{B}}\:\mathrm{and}\:\overset{\rightarrow} {{C}}\:\mathrm{add}\:\mathrm{up}\:\mathrm{to} \\ $$$$\mathrm{zero}.\:\mathrm{Find}\:\mathrm{which}\:\mathrm{is}\:\mathrm{false}. \\ $$$$\left({a}\right)\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right)×\overset{\rightarrow} {{C}}\:\mathrm{is}\:\mathrm{not}\:\mathrm{zero}\:\mathrm{unless}\:\overset{\rightarrow} {{B}},\:\overset{\rightarrow} {{C}} \\ $$$$\mathrm{are}\:\mathrm{parallel} \\ $$$$\left({b}\right)\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right)\centerdot\overset{\rightarrow} {{C}}\:\mathrm{is}\:\mathrm{not}\:\mathrm{zero}\:\mathrm{unless}\:\overset{\rightarrow} {{B}},\:\overset{\rightarrow} {{C}} \\ $$$$\mathrm{are}\:\mathrm{parallel} \\ $$$$\left({c}\right)\:\mathrm{If}\:\overset{\rightarrow} {{A}},\:\overset{\rightarrow} {{B}},\:\overset{\rightarrow} {{C}}\:\mathrm{define}\:\mathrm{a}\:\mathrm{plane},\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}×\overset{\rightarrow} {{C}}\right) \\ $$$$\mathrm{is}\:\mathrm{in}\:\mathrm{that}\:\mathrm{plane} \\ $$$$\left({d}\right)\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right).\overset{\rightarrow} {{C}}\:=\:\mid\overset{\rightarrow} {{A}}\mid\mid\overset{\rightarrow} {{B}}\mid\mid\overset{\rightarrow} {{C}}\mid\:\rightarrow\:{C}^{\mathrm{2}} \:=\:{A}^{\mathrm{2}} \:+\:{B}^{\mathrm{2}} \\ $$

Answered by ajfour last updated on 19/Aug/17

(a),(b),(d) are false . for (A^→ ×B^→ ).C^→ to be zero C^→ just need to be in the plane of A^→ and B^→ . For (A^→ ×B^→ )×C^→ to be zero C^→ need to be parallel to A^→ ×B^→ . If (A^→ ×B^→ ).C^→ =∣A^→ ∣∣B^→ ∣∣C^→ ∣ , A^→ , B^→ , C^→ just need be mutually perpendicular.

$$\left({a}\right),\left({b}\right),\left({d}\right)\:{are}\:{false}\:.\:{for}\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right).\overset{\rightarrow} {{C}}\:\:\:\:{to}\:{be} \\ $$$${zero}\:\overset{\rightarrow} {{C}}\:{just}\:{need}\:{to}\:{be}\:{in}\:{the}\:{plane} \\ $$$${of}\:\overset{\rightarrow} {{A}}\:{and}\:\overset{\rightarrow} {{B}}\:.\:{For}\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right)×\overset{\rightarrow} {{C}}\:\:{to}\:{be} \\ $$$${zero}\:\overset{\rightarrow} {{C}}\:\:{need}\:{to}\:{be}\:{parallel}\:{to}\:\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\:. \\ $$$${If}\:\left(\overset{\rightarrow} {{A}}×\overset{\rightarrow} {{B}}\right).\overset{\rightarrow} {{C}}=\mid\overset{\rightarrow} {{A}}\mid\mid\overset{\rightarrow} {{B}}\mid\mid\overset{\rightarrow} {{C}}\mid\:\:\:,\:\overset{\rightarrow} {{A}},\:\overset{\rightarrow} {{B}},\:\overset{\rightarrow} {{C}} \\ $$$${just}\:{need}\:{be}\:{mutually}\:{perpendicular}. \\ $$

Commented by ajfour last updated on 19/Aug/17

(i^� ×j^� )×j^� = −i^� . (a) is false .

$$\left(\hat {{i}}×\hat {{j}}\right)×\hat {{j}}\:=\:−\hat {{i}}\:.\:\left({a}\right)\:{is}\:{false}\:. \\ $$

Commented by Tinkutara last updated on 20/Aug/17

Thank you very much Sir!

$$\mathrm{Thank}\:\mathrm{you}\:\mathrm{very}\:\mathrm{much}\:\mathrm{Sir}! \\ $$

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