1/3 of 27 p = 27 p/3 = 9 p
9 over 30 p over 16 = 9/30p over 16 = 3/10p over 16 = 3/160p
Yes. k = 27, p = 9 Evaluate the expression: (x³ + 2x³)³ = (3x³)³ = 3³x^(3×3) = 27x^9
39 is the answer because 9 + 39 = 48
92(P2Q) or 81(P2Q) is the best you can possibly do.
The bond order of P-O in PO4^3- is 1.33. This is calculated by taking the total number of bonds and dividing by the total number of bond groups present. In the case of PO4^3-, there are 4 P-O bonds and 3 bond groups, so the bond order is 1.33.
To solve for p, set up the equation 5p + 9 = p - 3 5p = p - 12 4p = -12 p = -3 to prove the answer, substitute -3 for p and prove 5(-3) + 9 = (-3) -3 -15 + 9 = -6 -6 = -6
1/3 of 27 p = 27 p/3 = 9 p
A p bond is the result of the sideways overlap of two parallel p orbitals.
The P-P-P bond angle in white phosphorus is approximately 60 degrees.
9 over 30 p over 16 = 9/30p over 16 = 3/10p over 16 = 3/160p
The P-Cl bond is more polar than the P-Br bond. This is because chlorine (Cl) is more electronegative than bromine (Br), so it attracts the shared electrons in the bond more strongly, leading to a greater difference in electronegativity and thus a more polar bond in P-Cl compared to P-Br.
the f-p-f bond angle is 120the cl -p-cl bond angle is 180and the f - p - cl bond angle is 90
1/2(9+p)=p-3
24 - 2001 Day 3 900 p-m--1000 p-m- 3-9 is rated/received certificates of: Netherlands:12 Portugal:M/12 (DVD rating)
Yes, aluminum and phosphorus can form an ionic bond. In this bond, aluminum would donate electrons to phosphorus, resulting in the formation of Al^(3+) and P^(3-) ions which are held together by electrostatic forces.
17 + 6p = 9 6p = -8 p = -8/6 p = -4/3