Major Competitive Exams

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Major Competitive Exams

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Major Competitive Exams MCQ & Objective Questions

Major Competitive Exams play a crucial role in shaping the academic and professional futures of students in India. These exams not only assess knowledge but also test problem-solving skills and time management. Practicing MCQs and objective questions is essential for scoring better, as they help in familiarizing students with the exam format and identifying important questions that frequently appear in tests.

What You Will Practise Here

Key concepts and theories related to major subjects
Important formulas and their applications
Definitions of critical terms and terminologies
Diagrams and illustrations to enhance understanding
Practice questions that mirror actual exam patterns
Strategies for solving objective questions efficiently
Time management techniques for competitive exams

Exam Relevance

The topics covered under Major Competitive Exams are integral to various examinations such as CBSE, State Boards, NEET, and JEE. Students can expect to encounter a mix of conceptual and application-based questions that require a solid understanding of the subjects. Common question patterns include multiple-choice questions that test both knowledge and analytical skills, making it essential to be well-prepared with practice MCQs.

Common Mistakes Students Make

Rushing through questions without reading them carefully
Overlooking the negative marking scheme in MCQs
Confusing similar concepts or terms
Neglecting to review previous years’ question papers
Failing to manage time effectively during the exam

FAQs

Question: How can I improve my performance in Major Competitive Exams?
Answer: Regular practice of MCQs and understanding key concepts will significantly enhance your performance.

Question: What types of questions should I focus on for these exams?
Answer: Concentrate on important Major Competitive Exams questions that frequently appear in past papers and mock tests.

Question: Are there specific strategies for tackling objective questions?
Answer: Yes, practicing under timed conditions and reviewing mistakes can help develop effective strategies.

Start your journey towards success by solving practice MCQs today! Test your understanding and build confidence for your upcoming exams. Remember, consistent practice is the key to mastering Major Competitive Exams!

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Q. If the wavelength of light used in a diffraction experiment is increased, what happens to the diffraction pattern?

A. It becomes sharper
B. It becomes broader
C. It remains unchanged
D. It disappears

Solution

Increasing the wavelength results in a broader diffraction pattern as the angles for minima and maxima increase.

Correct Answer: B — It becomes broader

Q. If the wavelength of light used in a diffraction grating is increased, what happens to the angular separation of the fringes? (2023)

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

The angular separation (θ) is directly proportional to the wavelength (λ). Therefore, increasing λ increases the angular separation.

Correct Answer: A — Increases

Q. If the wavelength of light used in a double-slit experiment is 600 nm and the distance between the slits is 0.3 mm, what is the distance between the first and second bright fringes on the screen placed 2 m away?

A. 0.4 m
B. 0.6 m
C. 0.8 m
D. 0.2 m

Solution

Distance between fringes = (λD)/d = (600 x 10^-9 m * 2 m) / (0.3 x 10^-3 m) = 0.004 m = 0.4 m.

Correct Answer: A — 0.4 m

Q. If the wavelength of light used in a double-slit experiment is increased, what happens to the position of the interference fringes?

A. Fringes move closer together
B. Fringes move further apart
C. Fringes disappear
D. Fringes become brighter

Solution

Increasing the wavelength increases the fringe width, causing the fringes to move further apart.

Correct Answer: B — Fringes move further apart

Q. If the wavelength of light used in a double-slit experiment is increased, what happens to the fringe separation? (2022)

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

Fringe separation is directly proportional to the wavelength. If the wavelength increases, the fringe separation also increases.

Correct Answer: A — Increases

Q. If the wavelength of light used in a double-slit experiment is increased, what happens to the distance between the fringes? (2022)

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

The fringe width is directly proportional to the wavelength. Therefore, increasing the wavelength increases the distance between the fringes.

Correct Answer: A — Increases

Q. If the wavelength of light used in a single-slit diffraction experiment is increased, what will happen to the position of the first minimum? (2022)

A. It moves closer to the center
B. It moves away from the center
C. It remains unchanged
D. It disappears

Solution

The position of the first minimum in single-slit diffraction is given by a sin(θ) = λ. Increasing λ will cause θ to increase, moving the minimum away from the center.

Correct Answer: B — It moves away from the center

Q. If the wavelength of light used in a single-slit diffraction experiment is increased, what happens to the width of the central maximum? (2023)

A. It decreases
B. It increases
C. It remains the same
D. It becomes zero

Solution

The width of the central maximum in single-slit diffraction is directly proportional to the wavelength. Increasing the wavelength increases the width.

Correct Answer: B — It increases

Q. If the wavelength of light used in an interference experiment is 500 nm, what is the fringe separation when the screen is placed 2 m away from the slits separated by 0.1 mm?

A. 0.01 m
B. 0.025 m
C. 0.05 m
D. 0.1 m

Solution

Fringe separation β = λD/d = (500 x 10^-9 m)(2 m)/(0.1 x 10^-3 m) = 0.01 m.

Correct Answer: C — 0.05 m

Q. If the wavelength of light used in Young's experiment is 600 nm and the distance between the slits is 0.1 mm, what is the distance between the first and second bright fringes on a screen 2 m away?

A. 0.12 m
B. 0.24 m
C. 0.36 m
D. 0.48 m

Solution

Fringe separation (β) = λD/d. β = (600 x 10^-9 * 2) / 0.0001 = 0.012 m. Distance between first and second bright fringes = 2β = 0.024 m.

Correct Answer: B — 0.24 m

Q. If the wavelength of light used in Young's experiment is 600 nm, what is the fringe width when the distance between the slits is 0.1 mm and the distance to the screen is 2 m?

A. 0.03 mm
B. 0.06 mm
C. 0.12 mm
D. 0.15 mm

Solution

Fringe width (β) = (λD)/d = (600 x 10^-9 * 2)/(0.1 x 10^-3) = 0.012 mm = 0.06 mm.

Correct Answer: B — 0.06 mm

Q. If the weight of an object is measured as 50.0 kg with an uncertainty of 0.5 kg, what is the relative error?

A. 1%
B. 0.5%
C. 2%
D. 0.1%

Solution

Relative error = (Uncertainty / Measured value) * 100 = (0.5 / 50.0) * 100 = 1%.

Correct Answer: B — 0.5%

Q. If the Wheatstone bridge is balanced, what is the potential difference across the galvanometer?

A. Maximum.
B. Minimum.
C. Zero.
D. Equal to the supply voltage.

Solution

When the bridge is balanced, the potential difference across the galvanometer is zero.

Correct Answer: C — Zero.

Q. If the Wheatstone bridge is unbalanced, what can be inferred about the potential difference across the galvanometer?

A. It is zero
B. It is positive
C. It is negative
D. It is non-zero

Solution

An unbalanced Wheatstone bridge will have a non-zero potential difference across the galvanometer.

Correct Answer: D — It is non-zero

Q. If the Wheatstone bridge is unbalanced, what can be inferred about the resistances?

A. R1/R2 = R3/R4
B. R1/R2 ≠ R3/R4
C. R1 + R2 = R3 + R4
D. R1 - R2 = R3 - R4

Solution

An unbalanced Wheatstone bridge indicates that the ratio of the resistances is not equal.

Correct Answer: B — R1/R2 ≠ R3/R4

Q. If the Wheatstone bridge is unbalanced, what can be said about the potential difference across the galvanometer?

A. It is zero.
B. It is maximum.
C. It is equal to the supply voltage.
D. It is constant.

Solution

In an unbalanced bridge, there is a potential difference across the galvanometer, leading to maximum current flow.

Correct Answer: B — It is maximum.

Q. If the Wheatstone bridge is unbalanced, what happens to the current through the galvanometer?

A. It becomes zero.
B. It increases.
C. It decreases.
D. It becomes infinite.

Solution

In an unbalanced bridge, there is a potential difference across the galvanometer, causing current to flow.

Correct Answer: B — It increases.

Q. If the width of a river is 200 meters and the depth is 5 meters, what is the volume of water in one kilometer length of the river? (2021)

A. 100,000 m³
B. 1,000,000 m³
C. 500,000 m³
D. 200,000 m³

Solution

Volume = width × depth × length = 200 m × 5 m × 1000 m = 1,000,000 m³.

Correct Answer: B — 1,000,000 m³

Q. If the width of a river is 200 meters and the depth is 5 meters, what is the volume of water in cubic meters that flows through the river in one second if the velocity of the water is 3 m/s?

A. 3000
B. 1000
C. 6000
D. 5000

Solution

Volume = Width × Depth × Velocity = 200 m × 5 m × 3 m/s = 3000 m³/s.

Correct Answer: A — 3000

Q. If the wind is blowing from the north at 10 km/h, what is the wind direction?

A. North
B. South
C. East
D. West

Solution

The wind direction is named from where it originates, so it is blowing from the North.

Correct Answer: A — North

Q. If the word 'CAT' is coded as '3120', what is the code for 'DOG'?

A. 415
B. 416
C. 417
D. 418

Solution

D=4, O=15, G=7; combined gives 415.

Correct Answer: A — 415

Q. If the word 'COLD' is coded as 'DPME', how is 'WARM' coded?

A. XBSN
B. XBRN
C. XARN
D. XAMN

Solution

Each letter is shifted by +1: W->X, A->B, R->S, M->N, so 'WARM' becomes 'XBSN'.

Correct Answer: A — XBSN

Q. If the words 'apple', 'banana', 'cherry', and 'date' are arranged in reverse alphabetical order, which word comes first?

A. date
B. cherry
C. banana
D. apple

Solution

In reverse alphabetical order, 'date' comes first.

Correct Answer: A — date

Q. If the words 'cat', 'bat', 'rat', and 'hat' are arranged in alphabetical order, which word comes second?

A. bat
B. cat
C. hat
D. rat

Solution

In alphabetical order, 'bat' comes before 'cat', making it the second word.

Correct Answer: A — bat

Q. If the words 'quick', 'brown', and 'fox' are arranged to form a coherent sentence, which of the following is the correct arrangement?

A. The quick brown fox
B. Brown quick the fox
C. Fox the quick brown
D. Quick the brown fox

Solution

The correct arrangement that forms a coherent sentence is 'The quick brown fox'.

Correct Answer: A — The quick brown fox

Q. If the work function of a material is 2.5 eV, what is the minimum wavelength of light required to emit photoelectrons?

A. 400 nm
B. 500 nm
C. 600 nm
D. 700 nm

Solution

Minimum wavelength (λ) = hc / Φ = (1240 nm·eV) / 2.5 eV = 496 nm.

Correct Answer: B — 500 nm

Q. If the work function of a metal is 2.5 eV, what is the minimum wavelength of light required to emit photoelectrons?

A. 400 nm
B. 500 nm
C. 600 nm
D. 700 nm

Solution

Minimum wavelength (λ) = hc / Φ = (1240 nm·eV) / 2.5 eV = 496 nm.

Correct Answer: B — 500 nm

Q. If the work function of a metal is 4.5 eV, what is the threshold wavelength for the photoelectric effect?

A. 400 nm
B. 500 nm
C. 600 nm
D. 700 nm

Solution

The threshold wavelength can be calculated using the equation λ = hc/φ. Substituting h = 4.14 x 10^-15 eV·s, c = 3 x 10^8 m/s, and φ = 4.5 eV gives λ ≈ 400 nm.

Correct Answer: A — 400 nm

Q. If the Young's modulus of a material is 100 GPa and it is subjected to a tensile stress of 200 MPa, what is the strain produced?

A. 0.002
B. 0.0025
C. 0.01
D. 0.005

Solution

Strain = Stress / Young's modulus = 200 MPa / 100 GPa = 0.002.

Correct Answer: A — 0.002

Q. If there are 12 people sitting in a circle and every second person is eliminated, how many will remain after one complete round?

A. 6
B. 5
C. 4
D. 3

Solution

After eliminating every second person, 6 people will remain.

Correct Answer: A — 6

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