The Clausius-Clapeyron Law relates the vapor pressure of water P (in atmospheres) to the temperature T (in kelvins): dP P dT T2 where k is a constant. Estimate d P/dT for T = 303, 313, 323, 333, 343...

The Clausius-Clapeyron Law relates the vapor pressure of water P<br>(in atmospheres) to the temperature T (in kelvins):<br>dP<br>P<br>dT<br>T2<br>where k is a constant. Estimate d P/dT for T = 303, 313, 323, 333, 343<br>using the data and the symmetric difference approximation<br>dP<br>Р(T + 10) — Р( — 10)<br>-<br>dT<br>20<br>T (K)<br>293<br>303<br>313<br>323<br>333<br>343<br>353<br>P (atm) 0.0278 0.0482 0.0808 0.1311 0.2067 0.3173 0.4754<br>Do your estimates seem to confirm the Clausius-Clapeyron Law? What is<br>the approximate value of k?<br>

Extracted text: The Clausius-Clapeyron Law relates the vapor pressure of water P (in atmospheres) to the temperature T (in kelvins): dP P dT T2 where k is a constant. Estimate d P/dT for T = 303, 313, 323, 333, 343 using the data and the symmetric difference approximation dP Р(T + 10) — Р( — 10) - dT 20 T (K) 293 303 313 323 333 343 353 P (atm) 0.0278 0.0482 0.0808 0.1311 0.2067 0.3173 0.4754 Do your estimates seem to confirm the Clausius-Clapeyron Law? What is the approximate value of k?

Jun 09, 2022

SOLUTION.PDF

The Clausius-Clapeyron Law relates the vapor pressure of water P (in atmospheres) to the temperature T (in kelvins): dP P dT T2 where k is a constant. Estimate d P/dT for T = 303, 313, 323, 333, 343...

Get Answer To This Question

Related Questions & Answers

Submit New Assignment