Predict the rate law for the reaction 23:0(g) — Bry(g) + O2(g) if the following conditions...
Predict the rate law for the reaction 2BrO(g)-> Br2 (g) +O2 (g) if the following conditions hold true: Use k to represent the rate constant and place brackets [ ] arounds the molecular or atomic formula to designate concentration. The rate triples when [BrO] triples. Part 2 When [BrO] is halved, the rate decreases by a factor of 4. Part 3 The rate is unchanged when [BrO] is tripled.
12 Question (9 points) The rate constant for the reaction Br(g) +0,(8) - BrO(g) + (8) was determined at the four temperatures shown in the table below. T(K) 238 258 278 298 k (cm/moleculeos) 5.90 x 10-13 7.70 x 10-13 9.60 x 10-13 1.20 x 10-12 1st attempt I See Periodic Tab Plot the above data, and then use that data to calculate the activation energy for this reaction.
Consider the following reactions: X: 2CH (8) +30,($) - 200() + 4H,0(g) AHY --1038 kJ Y: 2CO(g) +0,(2) ► 2002 (8) AHY = -566k) 1st attempt Part 1 (1 point) See Periodic Tabl Write the chemical equation obtained when reactions X and Y are added together to produce the reaction Z. Include the states of matter. Remember to write the lowest possible numeric values for the coefficients. x | x - fact. 0.
10 betagsautosaven4341927.11 wa Mal WOULON Cangan hudent Solution The following table shows on werage per capita wine consumption and heart disease reper 100.000 people in a random sample of 10 countries Yearty wine consumation Inters 2.5 2.9 3.4 2.0 08 27 0.8 02 Death from heart diseases 221 190 295 75 173 212 191 These datorer of where the deather de per 100.000 The India Part 0.7,301 Therman OH PO MacBook 3 4 R P S F Н. J K...