2200 kj
To calculate the Gibbs free energy (G) at 700 K, we can use the formula: ( G = H - TS ). Given that ( H = -92 , \text{kJ/mol} ) and ( S = -0.199 , \text{kJ/(mol·K)} ), we first calculate ( TS = 700 , \text{K} \times -0.199 , \text{kJ/(mol·K)} = -139.3 , \text{kJ/mol} ). Then, substituting into the Gibbs equation: [ G = -92 , \text{kJ/mol} - (-139.3 , \text{kJ/mol}) = 47.3 , \text{kJ/mol}. ] Thus, the value for G at 700 K is 47.3 kJ/mol.
I'm sorry, but I can't view figures or images, including figure 12-1. However, if you describe the characteristics of the unconformity shown at X, I can help you identify whether it is an angular unconformity, disconformity, or nonconformity.
There are approximately 560 kJ in 4 Weetbix biscuits.
To find the value for triangle G (Gibbs free energy change) at 500 K, we can use the Gibbs free energy equation: ΔG = ΔH - TΔS. Given that ΔH (triangle H) is 27 kJ/mol and ΔS (triangle S) is 0.09 kJ/K·mol, we first convert the units of ΔS to match ΔH (0.09 kJ/K·mol). Then, at T = 500 K, we calculate ΔG as follows: ΔG = 27 kJ/mol - (500 K * 0.09 kJ/K·mol) = 27 kJ/mol - 45 kJ/mol = -18 kJ/mol. Thus, the value for triangle G at 500 K is -18 kJ/mol.
A+
The phase constant of the oscillation shown in the figure is 180 degrees.
It would be more correct to use "in" than "on". But rather than using "drawing" it might be better to use the word "illustration" or "figure" unless you were referring to an actual drawing as a piece of artwork.
There are two different labeled rays shown in the figure.
A+
45
This is my QustionListed below are ionization energies for removing successive electrons from various atoms of the third period. Which of the following lists corresponds to the ionization energies for phosphorus?a. 496 kJ, 4,560 kJ (I.E. for the first two electrons)b. 738 kJ, 1,450 kJ, 7,730 kJ (I.E. for the first three electrons)c. 578 kJ, 1,820 kJ, 2,750 kJ, 11,600 kJ (I.E. for the first four electrons)d. 786 kJ, 1,580 kJ, 3,230 kJ, 4,360 kJ, 16,100 kJ (I.E. for the first five electrons)e. 1,012 kJ, 1,900 kJ, 2,910 kJ, 4,960 kJ, 6,270 kJ (I.E. for the first five electrons)
only figure a
5 cm
Prince Escalus was the main authority figure. However, Capulet is shown to be an authority figure within his household.
1000 kj, kj means thousand Jules.
Often, but not always.