posted by .

Predict the molecular and bond angle for each molecule or ion given below: SO3, ClO3-, NF3, SO42-

  • chemistry -

    See your post below.

Respond to this Question

First Name
School Subject
Your Answer

Similar Questions

  1. chemistry

    I have a chart and I have to draw the structure,name the shape snd lable the bond angle of some compounds. I've done most of them but im stuck on a few so heres what I need.Please and thank you structure of NF3 structure,shape and …
  2. chemistry

    someone can check my answer for me? and b) Shape and Bond Angle answer would be great too! :) a) NF3 Structure = 26 electrons, Shape = trigonal pyramidal, Bond Angle = 105.5. b) TeCI2 Structure = 30 electrons, Shape = ?
  3. chemistry

    What is the bond angle for H2O2 abd what is the bond angle and how would you draw ClO3-
  4. chemistry

    Predict the molecular and bond angle for each molecule or ion given below: SO3, ClO3-, NF3, SO42-
  5. Stela

    CCl4 ClO4− ClF4− SiCl4 SO42− Which molecule or ion does not have a tetrahedral molecular geometry?
  6. ap chem

    The diatomic molecule OH exists in the gas phase. The bond lengthand bond energy have been measured to be 97.06 pm and 424.7 kJ/mol.Knowing that only the 2p orbitals of will interact significantlywith mol, respectively. Assume that …
  7. chemistry

    Use molecular orbital theory to predict whether the bond order in the superoxide ion, O2-, should be higher or lower than the bond order in neutral O2 molecule. Is the bond order of O2- higer or lower than that of O2?
  8. Chemistry - molecular polarity

    Hi Dr. Bob. Could you please take a look at the question below and my work?
  9. Chemistry (Molarity)

    Indicate the concentration of each ion or molecule present: a mixture of 48.0 mL of 0.11 M KClO3 and 28.0 mL of 0.29 M Na2SO4. Assume the volumes are additive. a) [K+] b) [ClO3-] c) [SO42-] d) [Na+] We haven't taken notes on this particular …
  10. chemistry

    ClO3^-(aq)+3SO3^2- ยกรท Cl^-(aq)+3SO4^2- 1) If the SO3^2- ion is disaapearing at rate of 0.458 mol/L*s, how fast is the Cl^- ion appearing?

More Similar Questions