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MHT-CET

Chemistry (MHT-CET) Mathematics (MHT-CET) Physics (MHT-CET)

Q. In a parallel RLC circuit, if R = 50 ohms, L = 0.2H, and C = 50μF, what is the total admittance? (2023)

A. 0.02 S
B. 0.04 S
C. 0.06 S
D. 0.08 S

Solution

Y = 1/R + j(ωC - 1/ωL); calculate Y for given values.

Correct Answer: C — 0.06 S

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Q. In a parallel RLC circuit, if R = 50Ω, L = 0.2 H, and C = 50μF, what is the quality factor Q? (2015)

A. 1
B. 2
C. 3
D. 4

Solution

Quality factor Q = (1/R) * √(L/C) = (1/50) * √(0.2/50e-6) = 2.

Correct Answer: B — 2

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Q. In a parallel RLC circuit, if the resistance is 10Ω, inductance is 0.2H, and capacitance is 50μF, what is the total current at resonance? (2022)

A. 0.5A
B. 1A
C. 2A
D. 4A

Solution

At resonance, total current I = V/R. Calculate using V = 10V.

Correct Answer: B — 1A

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Q. In a parallel RLC circuit, if the resistance is 10Ω, inductance is 0.2H, and capacitance is 50μF, what is the total admittance? (2022)

A. 0.1 S
B. 0.2 S
C. 0.3 S
D. 0.4 S

Solution

Total admittance Y = 1/R + j(ωC - 1/ωL). Calculate Y using given values.

Correct Answer: C — 0.3 S

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Q. In a parallel RLC circuit, if the resistance is 10Ω, inductance is 0.2H, and capacitance is 50μF, what is the quality factor Q? (2021)

A. 1
B. 2
C. 3
D. 4

Solution

Quality factor Q = (1/R) * √(L/C) = (1/10) * √(0.2/50e-6) ≈ 3.

Correct Answer: C — 3

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Q. In a purely capacitive AC circuit, the current leads the voltage by how many degrees? (2022)

A. 0°
B. 90°
C. 180°
D. 270°

Solution

In a purely capacitive circuit, the current leads the voltage by 90°.

Correct Answer: B — 90°

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Q. In a purely capacitive AC circuit, the current leads the voltage by how much phase angle? (2023)

A. 0 degrees
B. 90 degrees
C. 180 degrees
D. 270 degrees

Solution

In a purely capacitive circuit, the current leads the voltage by 90 degrees.

Correct Answer: B — 90 degrees

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Q. In a reaction A → B, if the concentration of A decreases from 0.8 M to 0.4 M in 20 minutes, what is the average rate of reaction? (2019)

A. 0.02 M/min
B. 0.04 M/min
C. 0.1 M/min
D. 0.05 M/min

Solution

Average rate = Δ[A]/Δt = (0.8 - 0.4) / 20 = 0.02 M/min.

Correct Answer: D — 0.05 M/min

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Q. In a reaction, if the concentration of reactant A is halved, and the rate constant remains the same, how does the rate change for a first-order reaction? (2021)

A. Doubles
B. Halves
C. Remains the same
D. Quadruples

Solution

For a first-order reaction, if [A] is halved, the rate also halves.

Correct Answer: B — Halves

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Q. In a reaction, if the concentration of reactant A is halved, and the rate of reaction decreases to one-fourth, what is the order of the reaction? (2020)

A. Zero
B. First
C. Second
D. Third

Solution

If the rate decreases to one-fourth when concentration is halved, the reaction is second-order.

Correct Answer: C — Second

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Q. In a reversible reaction at equilibrium, if the temperature is increased, what will happen to the equilibrium position if the reaction is exothermic? (2023)

A. Shift to the right
B. Shift to the left
C. No change
D. Increase the rate of reaction

Solution

For an exothermic reaction, increasing the temperature shifts the equilibrium position to the left, favoring the reactants, as the system tries to absorb the added heat.

Correct Answer: B — Shift to the left

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Q. In a reversible reaction at equilibrium, what happens if the concentration of a reactant is increased? (2023)

A. The equilibrium shifts to the right
B. The equilibrium shifts to the left
C. The equilibrium remains unchanged
D. The reaction stops

Solution

According to Le Chatelier's principle, increasing the concentration of a reactant will shift the equilibrium to the right to produce more products.

Correct Answer: A — The equilibrium shifts to the right

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Q. In a reversible reaction at equilibrium, which of the following statements is true?

A. The rate of the forward reaction is equal to the rate of the reverse reaction.
B. The concentration of reactants is greater than products.
C. The reaction has stopped completely.
D. The temperature remains constant.

Solution

At equilibrium, the rate of the forward reaction equals the rate of the reverse reaction, which means the concentrations of reactants and products remain constant over time.

Correct Answer: A — The rate of the forward reaction is equal to the rate of the reverse reaction.

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Q. In a reversible reaction, if the concentration of products increases, what happens to the equilibrium position? (2021)

A. It shifts to the left
B. It shifts to the right
C. It remains unchanged
D. It shifts to the center

Solution

According to Le Chatelier's principle, if the concentration of products increases, the equilibrium will shift to the left to counteract the change.

Correct Answer: A — It shifts to the left

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Q. In a reversible reaction, if the concentration of products increases, what happens to the equilibrium position? (2021) 2021

A. It shifts to the left
B. It shifts to the right
C. It remains unchanged
D. It shifts to the center

Solution

According to Le Chatelier's principle, if the concentration of products increases, the equilibrium will shift to the left to counteract the change.

Correct Answer: A — It shifts to the left

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Q. In a reversible reaction, if the concentration of products increases, what happens to the rate of the forward reaction? (2021)

A. It increases
B. It decreases
C. It remains constant
D. It becomes zero

Solution

According to Le Chatelier's principle, if the concentration of products increases, the system will shift to the left, decreasing the rate of the forward reaction.

Correct Answer: B — It decreases

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Q. In a reversible reaction, if the concentration of products is increased, what will happen to the equilibrium position? (2021)

A. Shift to the left
B. Shift to the right
C. No change
D. Depends on temperature

Solution

According to Le Chatelier's principle, increasing the concentration of products will shift the equilibrium position to the left to counteract the change.

Correct Answer: A — Shift to the left

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Q. In a reversible reaction, if the concentration of products is increased, what will happen to the equilibrium? (2021)

A. Shift to the right
B. Shift to the left
C. No change
D. Increase in temperature

Solution

According to Le Chatelier's principle, increasing the concentration of products will shift the equilibrium to the left to counteract the change.

Correct Answer: B — Shift to the left

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Q. In a reversible reaction, if the concentration of reactants is increased, what will happen to the position of equilibrium? (2021)

A. It will shift to the right
B. It will shift to the left
C. It will remain unchanged
D. It will shift to the center

Solution

According to Le Chatelier's principle, increasing the concentration of reactants will shift the equilibrium position to the right to favor the formation of products.

Correct Answer: A — It will shift to the right

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Q. In a reversible reaction, if the concentration of reactants is increased, what will happen to the equilibrium position? (2021)

A. It will shift to the right
B. It will shift to the left
C. It will remain unchanged
D. It will shift to the center

Solution

According to Le Chatelier's principle, if the concentration of reactants is increased, the equilibrium will shift to the right to favor the formation of products.

Correct Answer: A — It will shift to the right

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Q. In a reversible reaction, if the concentration of the reactants is increased, what will happen to the position of equilibrium? (2023)

A. It will shift to the right
B. It will shift to the left
C. It will remain unchanged
D. It will shift to the center

Solution

According to Le Chatelier's principle, increasing the concentration of reactants will shift the equilibrium position to the right, favoring the formation of products.

Correct Answer: A — It will shift to the right

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Q. In a second-order reaction, if the initial concentration is 0.1 M and the rate constant is 0.05 M⁻¹s⁻¹, what is the time taken to reach half the initial concentration? (2020)

A. 10 s
B. 20 s
C. 5 s
D. 15 s

Solution

For a second-order reaction, t₁/₂ = 1 / (k[A₀]) = 1 / (0.05 * 0.1) = 200 s.

Correct Answer: B — 20 s

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Q. In a sequence where the nth term is given by n^2 + 2n, what is the 6th term?

A. 48
B. 50
C. 52
D. 54

Solution

Substituting n = 6 into the formula: a_6 = 6^2 + 2(6) = 36 + 12 = 48.

Correct Answer: A — 48

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Q. In a series RLC circuit, if R = 10 ohms, L = 0.1H, and C = 100μF, what is the resonant frequency? (2021)

A. 159.15 Hz
B. 100 Hz
C. 50 Hz
D. 200 Hz

Solution

f0 = 1 / (2π√(LC)) = 1 / (2π√(0.1 × 100 × 10^-6)) = 159.15 Hz.

Correct Answer: A — 159.15 Hz

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Q. In a series RLC circuit, if R = 20Ω, L = 0.1 H, and C = 100μF, what is the resonant frequency? (2020)

A. 50 Hz
B. 100 Hz
C. 159.15 Hz
D. 200 Hz

Solution

Resonant frequency f₀ = 1 / (2π√(LC)) = 1 / (2π√(0.1 * 100e-6)) = 159.15 Hz.

Correct Answer: C — 159.15 Hz

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Q. In a series RLC circuit, if the inductive reactance is greater than the capacitive reactance, what type of circuit is it? (2022)

A. Resonant
B. Inductive
C. Capacitive
D. Purely resistive

Solution

If inductive reactance (XL) is greater than capacitive reactance (XC), the circuit is inductive.

Correct Answer: B — Inductive

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Q. In a series RLC circuit, if the inductive reactance is greater than the capacitive reactance, the circuit is said to be: (2019)

A. Resonant
B. Capacitive
C. Inductive
D. Purely resistive

Solution

If inductive reactance (XL) is greater than capacitive reactance (XC), the circuit is inductive.

Correct Answer: C — Inductive

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Q. In a series RLC circuit, if the resistance is 10 ohms, inductance is 0.1 H, and capacitance is 100 μF, what is the resonant frequency? (2021)

A. 50 Hz
B. 100 Hz
C. 159 Hz
D. 200 Hz

Solution

Resonant frequency f = 1/(2π√(LC)) = 1/(2π√(0.1 * 100e-6)) = 159.15 Hz.

Correct Answer: C — 159 Hz

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Q. In a series RLC circuit, if the resistance is 10Ω, inductance is 0.1H, and capacitance is 100μF, what is the resonant frequency? (2021)

A. 50Hz
B. 100Hz
C. 159Hz
D. 200Hz

Solution

Resonant frequency f0 = 1/(2π√(LC)) = 1/(2π√(0.1*100e-6)) ≈ 159Hz.

Correct Answer: C — 159Hz

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Q. In a series RLC circuit, if the resistance is 4 ohms, inductance is 0.1 H, and capacitance is 100 μF, what is the resonant frequency? (2023)

A. 50 Hz
B. 100 Hz
C. 159.15 Hz
D. 200 Hz

Solution

Resonant frequency f = 1/(2π√(LC)) = 1/(2π√(0.1 * 100e-6)) = 159.15 Hz.

Correct Answer: C — 159.15 Hz

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MHT-CET MCQ & Objective Questions

The MHT-CET exam is a crucial stepping stone for students aspiring to pursue engineering and pharmacy courses in Maharashtra. Mastering the MHT-CET MCQ format is essential, as it not only tests your knowledge but also enhances your exam preparation strategy. Practicing objective questions helps in identifying important concepts and improves your chances of scoring better in this competitive exam.

What You Will Practise Here

Fundamental concepts in Physics, Chemistry, and Mathematics
Key formulas and their applications in problem-solving
Important definitions and terminologies relevant to MHT-CET
Diagrams and illustrations for better conceptual understanding
Practice questions that mirror the exam pattern
Analysis of previous years' MHT-CET questions
Techniques for tackling tricky MCQs effectively

Exam Relevance

The MHT-CET exam is aligned with the syllabus of CBSE, State Boards, and is also relevant for students preparing for NEET and JEE. Many concepts from the MHT-CET syllabus appear in these competitive exams, often in the form of application-based questions or conceptual MCQs. Understanding the common question patterns can significantly enhance your preparation and performance.

Common Mistakes Students Make

Misinterpreting questions due to lack of clarity in reading
Neglecting to review fundamental concepts before attempting MCQs
Overlooking units and dimensions in Physics and Chemistry problems
Rushing through practice questions without thorough understanding
Failing to manage time effectively during the exam

FAQs

Question: What are the best resources for MHT-CET MCQ questions?
Answer: Utilizing online platforms like SoulShift, which offer a variety of practice questions and mock tests, can be very beneficial.

Question: How can I improve my speed in solving MHT-CET objective questions?
Answer: Regular practice and timed mock tests can help enhance your speed and accuracy in solving MCQs.

Start your journey towards success by solving MHT-CET practice MCQs today! Test your understanding and build your confidence for the exam ahead.

MHT-CET

MHT-CET MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

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