JEE Advanced 2025 Paper 2 Online | Units & Measurements Question 1 | Physics

A temperature difference can generate e.m.f. in some materials. Let S be the e.m.f. produced per unit temperature difference between the ends of a wire, σ the electrical conductivity and κ the thermal conductivity of the material of the wire. Taking M, L, T, I and K as dimensions of mass, length, time, current and temperature, respectively, the dimensional formula of the quantity $Z = \frac{S^2 \sigma}{\kappa}$ is :

[M⁰L⁰T⁰I⁰K⁰]

[M⁰L⁰T⁰I⁰K⁻¹]

[M¹L²T⁻²I⁻¹K⁻¹]

[M¹L²T⁻⁴I⁻¹K⁻¹]

JEE Advanced 2025 Paper 1 Online

MCQ (Single Correct Answer)

-1

Figure 1 shows the configuration of main scale and Vernier scale before measurement. Fig. 2 shows the configuration corresponding to the measurement of diameter D of a tube. The measured value of D is:

JEE Advanced 2025 Paper 1 Online Physics - Units & Measurements Question 2 English

0.12 cm

0.11 cm

0.13 cm

0.14 cm

JEE Advanced 2024 Paper 1 Online

MCQ (Single Correct Answer)

-1

A dimensionless quantity is constructed in terms of electronic charge $e$, permittivity of free space $\varepsilon_0$, Planck's constant $h$, and speed of light $c$. If the dimensionless quantity is written as $e^\alpha \varepsilon_0{ }^\beta h^\gamma c^\delta$ and $n$ is a non-zero integer, then $(\alpha, \beta, \gamma, \delta)$ is given by :

$(2 n,-n,-n,-n)$

$(n,-n,-2 n,-n)$

$(n,-n,-n,-2 n)$

$(2 n,-n,-2 n,-2 n)$

JEE Advanced 2023 Paper 2 Online

MCQ (Single Correct Answer)

-1

Young's modulus of elasticity $Y$ is expressed in terms of three derived quantities, namely, the gravitational constant $G$, Planck's constant $h$ and the speed of light $c$, as $Y=c^\alpha h^\beta G^\gamma$. Which of the following is the correct option?

$\alpha=7, \beta=-1, \gamma=-2$

$\alpha=-7, \beta=-1, \gamma=-2$

$\alpha=7, \beta=-1, \gamma=2$

$\alpha=-7, \beta=1, \gamma=-2$

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