Wiki User
∙ 8y agoThe reaction will proceed to the right. 2 PCl3 will be consumed.
Wiki User
∙ 8y agoTrigonal Pyramidal
PCl3 is trigonal pyramidal. The lone pair on phosphorous takes up the most space, so the three chlorine atoms form the base of a pyramid with the phosphorous at top.
P+Cl+Cl+Cl 31+35+35+35 so the answer is 136
Trigonal Pyramidal. It is not trigonal planar because there is one lone pair around the central atom, just like the shape of ammonia.
The reaction will proceed to the left. PCl5 will be formed. PCl3 will be consumed.
The products of the reaction of PCl3 with water are HCl and H3PO3 (phosphorous acid). The balanced chemical equation for the reaction is: PCl3 + 3H2O → 3HCl + H3PO3
The decomposition reaction for PCl5 is: 2 PCl5 (g) → PCl3 (g) + Cl2 (g)
The balanced chemical equation for the reaction is: PCl3 + 3H2O → H3PO3 + 3HCl
When an alcohol reacts with PCl3, the gas produced is phosphorus trichloride (PCl3) gas. This is due to the reaction of the alcohol with the phosphorus trichloride compound.
show you the balance reaction between water and phsphorous trichloride show you the balance reaction between water and phsphorous trichloride show you the balance reaction between water and phsphorous trichloride
PCl3 dissolves in water to some extent due to its polar nature, but it does not dissolve in oil because oil is nonpolar.
The compound name for PCl3 is phosphorus trichloride.
Phosphorus trichloride (PCl3) fumes in moisture because it reacts with water vapor in the air to produce hydrochloric acid (HCl) and phosphorous acid (H3PO3). This reaction generates heat and the resulting fumes are a combination of these acidic products.
The balanced chemical equation is 4PCl3 → P4 + 6Cl2. The molar mass of PCl3 is 137.33 g/mol. To calculate the energy required, first find the moles of PCl3 (765 g / 137.33 g/mol), then use the stoichiometry from the balanced equation to convert moles of PCl3 to moles of P4, and finally use the enthalpy values for each reaction to determine the total energy required. The enthalpy values for each reaction can then be multiplied by the number of moles of each substance in the reaction to find the total energy required for the reaction.
The covalent compound PCl3 is called phosphorus trichloride.
The mole ratio is 1:1 because when you're looking for the MOLE ratio in an equation, you have to always use the coefficients in front of the elements (just emphasizing the word mole since the previous answer was wrong) , and since there is an invisible 1 in front of both Cl2 and CaCl2, therefore the ratio is 1:1.