Class 12 Chemistry Chapter 01: Solutions 6: Molar Mass Determination Hard Level 18

किसी विलेय का सामान्य मोलर द्रव्यमान \(90,g,mol^{-1}\) है। यदि अणुसंख्य गुणों से प्रेक्षित मोलर द्रव्यमान \(60,g,mol^{-1}\) मिले, तो वान्ट हॉफ गुणक कितना होगा?

Q: किसी विलेय का सामान्य मोलर द्रव्यमान (90,g,mol power -1 ) है। यदि अणुसंख्य गुणों से प्रेक्षित मोलर द्रव्यमान (60,g,mol power -1 ) मिले, तो वान्ट हॉफ गुणक कितना होगा? / The normal molar mass of a solute is (90,g,mol power -1 ). If the observed molar mass from colligative properties is (60,g,mol power -1 ), what is the van't Hoff factor?

Correct Answer: C. (1.5). Explanation: चरण 1: संबंध (i= M normal M observed ) है। चरण 2: (i= 90 by 60 =1.5), इसलिए प्रभावी कण संख्या सामान्य से अधिक है। चरण 3: (i>1) मिलने पर वियोजन या आंशिक आयनन सोचें। / Step 1: The relation is (i= M normal M observed ). Step 2: (i= 90 by 60 =1.5), so effective particle number is greater than normal. Step 3: When (i>1), think of dissociation or partial ionisation.

Q: Which concept should I revise for this Chemistry MCQ?

The relation is (i= M normal M observed ).

The normal molar mass of a solute is \(90,g,mol^{-1}\). If the observed molar mass from colligative properties is \(60,g,mol^{-1}\), what is the van't Hoff factor?

Explanation opens after your attempt

Correct Answer

C. (1.5)

Step 1

Concept

\(The relation is (i=\frac{M_{\)normal\(}}{M_{\)observed}}).

Step 2

Why this answer is correct

\(i=\frac{90}{60}=1.5\), so effective particle number is greater than normal.

Step 3

Exam Tip

\(When (i>1), think of dissociation or partial ionisation. चरण 1: संबंध (i=\frac{M_{\)normal\(}}{M_{\)observed}}) है। चरण 2: \(i=\frac{90}{60}=1.5\), इसलिए प्रभावी कण संख्या सामान्य से अधिक है। \(चरण 3: (i>1) मिलने पर वियोजन या आंशिक आयनन सोचें\)।

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Chemistry Answer, Explanation and Revision Hints

किसी विलेय का सामान्य मोलर द्रव्यमान \(90,g,mol^{-1}\) है। यदि अणुसंख्य गुणों से प्रेक्षित मोलर द्रव्यमान \(60,g,mol^{-1}\) मिले, तो वान्ट हॉफ गुणक कितना होगा? / The normal molar mass of a solute is \(90,g,mol^{-1}\). If the observed molar mass from colligative properties is \(60,g,mol^{-1}\), what is the van't Hoff factor?

\(Correct Answer: C. (1.5). Explanation: चरण 1: संबंध (i=\frac{M_{\)normal\(}}{M_{\)observed}}) है। चरण 2: \(i=\frac{90}{60}=1.5\), इसलिए प्रभावी कण संख्या सामान्य से अधिक है। चरण 3: (i>1) मिलने पर वियोजन या आंशिक आयनन सोचें। \(/ Step 1: The relation is (i=\frac{M_{\)normal\(}}{M_{\)observed\(}}). Step 2: (i=\frac{90}{60}=1.5), so effective particle number is greater than normal. Step 3: When (i>1), think of dissociation or partial ionisation.\)

Which concept should I revise for this Chemistry MCQ?

\(The relation is (i=\frac{M_{\)normal\(}}{M_{\)observed}}).

What exam hint can help solve this Chemistry question?

Concept

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