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मेथेनॉल का एक मोल जब O₂ में जलाया जाता है तो 723 kJ mol^-1की ऊष्मा देता है। यदि O₂ के एक मोल का उपयोग किया जाता है, तो उष्मा की मात्रा कितनी मुक्त होगी?

1. 482 kJ 2. 241 kJ

3. 723 kJ 4. 924 kJ

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Q238:

Based on the following thermochemical equations

$H_{2} O (g) + C (s) \to C O (g) + H_{2} (g); Δ H = 131 k J$

$C O (g) + \frac{1}{2} O_{2} (g) \to C O_{2} (g); Δ H = - 282 k J$

$H_{2} (g) + \frac{1}{2} O_{2} (g) \to H_{2} O (g); Δ H = - 242 k J$

$C (s) + O_{2} (g) \to C O_{2} (g); Δ H = X k J$

The value of X is [CBSE PMT 1992]

(1) –393 kJ

(2) –655 kJ

(3) +393 kJ

(4) +655 kJ

निम्नलिखित ऊष्मारासायनिक समीकरणों के आधार पर

$H_{2} O (g) + C (s) \to C O (g) + H_{2} (g); Δ H = 131 k J$

$C O (g) + \frac{1}{2} O_{2} (g) \to C O_{2} (g); Δ H = - 282 k J$

$H_{2} (g) + \frac{1}{2} O_{2} (g) \to H_{2} O (g); Δ H = - 242 k J$

$C (s) + O_{2} (g) \to C O_{2} (g); Δ H = X k J$

X का मान है: [CBSE PMT 1992]

(1) –393 kJ

(2) –655 kJ

(3) +393kJ

(4) +655kJ

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Q239:

Which of the following is not a state function [DCE 2002]

(1) ΔS

(2) ΔG

(3) ΔH

(4) ΔQ

निम्नलिखित में से कौन एक अवस्था फलन नहीं है [DCE 2002]

(1) ΔS

(2) ΔG

(3) ΔH

(4) ΔQ

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Q240:

$H_{2} (g) + \frac{1}{2} O_{2} (g) \to H_{2} O (l)$

B.E. (H-H) = x₁; B.E. (O=O) = x₂ B.E. (O-H) = x₃

Latent heat of vaporization of water liquid into water vapour = x₄, then $∆ H_{f}$ (heat of formation of liquid water) is-

1. $x_{1} + \frac{x_{2}}{2} - x_{3} + x_{4}$

2. $2 x_{3} - x_{1} - \frac{x_{2}}{2} - x_{4}$

3. $x_{1} + \frac{x_{2}}{2} - 2 x_{3} - x_{4}$

4. $x_{1} + \frac{x_{2}}{2} - 2 x_{3} + x_{4}$

$H_{2} (g) + \frac{1}{2} O_{2} (g) \to H_{2} O (l)$

B.E. (H-H) = x₁; B.E. (O=O) = x₂ B.E. (O-H) = x₃

जल वाष्प में जल वाष्प के वाष्पीकरण की गुप्त ऊष्मा = x₄, तब $∆ H_{f}$ (द्रव जल के निर्माण की ऊष्मा) है-

1. $x_{1} + \frac{x_{2}}{2} - x_{3} + x_{4}$

2. $2 x_{3} - x_{1} - \frac{x_{2}}{2} - x_{4}$

3. $x_{1} + \frac{x_{2}}{2} - 2 x_{3} - x_{4}$

4. $x_{1} + \frac{x_{2}}{2} - 2 x_{3} + x_{4}$

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Q241:

For the process:

H₂O(l)[1 bar, 373 K] $⇌$ H₂O(g)[1 bar, 373 K] the correct set of thermodynamic parameters are:

1. $∆ G = 0; ∆ S = + ve$

2. $∆ G = 0; ∆ S = - ve$

3. $∆ G = + ve; ∆ S = 0$

4. $∆ G = - ve; ∆ S = + ve$

प्रक्रम के लिए:

H₂O (l) [1 bar, 373 K] $⇌$ H₂O (g) [1 bar, 373 K] ऊष्मागतिक प्राचलों का सही समूह हैं:

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Q242:

At 25 $°$ C, for the process H₂O(l) $⇌$ H₂O(g);

$∆ G °$ is 8.6 kJ. The vapour pressure of water at this temperature is nearly:-

(1) 24 torr

(2) 285 torr

(3) 32.17 torr

(4) 100 torr

25 $°$ C पर, प्रक्रम H₂O(l) $⇌$ H₂O(g) के लिए;

$∆ G °$ 8.6 kJ है। इस तापमान पर जल का वाष्प दाब लगभग होता है: -

(1) 24 torr

(2) 285 torr

(3) 32.17 torr

(4) 100 torr

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Q243:

All the natural process in this universe produce

1. A decrease in entropy of the universe

2. An increase in entropy of the universe

3. No change in entropy

4. Sometimes increase or sometimes decrease in entropy

इस ब्रह्मांड में सभी प्राकृतिक प्रक्रम उत्पादित करते हैं

1. ब्रह्मांड की एन्ट्रापी में कमी

2. ब्रह्मांड के एन्ट्रापी में वृद्धि

3. एन्ट्रापी में कोई परिवर्तन नहीं

4. कभी-कभी एन्ट्रापी में वृद्धि या कभी-कभी कमी होती है

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