Samacheer Kalvi EM 12 Physics Vol1 Unit3 MCQs Mock Test

byJunaid Baig0-

12th Physics - Volume 1 Mock Test

Unit 3: Magnetism and Magnetic Effects of Electric Current

Choose the correct answer from the multiple choices, then click "Next" to goto next question and finally click "OK" after seeing the score.

The magnetic field at the center O of the following current loop is

`\frac{\mu_oI}{4r}\otimes`

`\frac{\mu_oI}{4r}\odot`

`\frac{\mu_oI}{2r}\otimes`

`\frac{\mu_oI}{2r}\odot`

An electron moves straight inside a charged parallel plate capacitor of uniform charge density σ The time taken by the electron to cross the parallel plate capacitor when the plates of the capacitor are kept under constant magnetic field of induction `\vec B` is

`\varepsilon_o\frac{elB}\sigma`

`\varepsilon_o\frac{lB}{\sigma l}`

`\varepsilon_o\frac{lB}{e\sigma}`

`\varepsilon_o\frac{lB}\sigma`

The force experienced by a particle having mass m and charge q accelerated through a potential difference V when it is kept under perpendicular magnetic field `\vec B` is

`\sqrt{\frac{2q^3BV}m}`

`\sqrt{\frac{q^3B^2V}{2m}}`

`\sqrt{\frac{2q^3B^2V}m}`

`\sqrt{\frac{2q^3BV}{m^3}}`

A circular coil of radius 5 cm and 50 turns carries a current of 3 ampere. The magnetic dipole moment of the coil is

1.0 amp - `m^2`

1.2 amp - `m^2`

0.5 amp - `m^2`

0.8 amp - `m^2`

A thin insulated wire forms a plane spiral of N=100 tight turns carrying a current I=8 m A (milli ampere). The radii of inside and outside turns are a=50 mm and b=100 mm respectively. The magnetic induction at the center of the spiral is

5 µT

7 µT

8 µT

10 µT

Three wires of equal lengths are bent in the form of loops. One of the loops is circle, another is a semi-circle and the third one is a square. They are placed in a uniform magnetic field and same electric current is passed through them. Which of the following loop configuration will experience greater torque?

Circle

Semi-circle

Square

All of them

Two identical coils, each with N turns and radius R are placed coaxially at a distance R as shown in the figure. If I is the current passing through the loops in the same direction, then the magnetic field at a point P which is at exactly at R/2 distance between two coils is

`\frac{8N\mu_oI}{\sqrt5R}`

`\frac{8N\mu_oI}{5^{3/2}R}`

`\frac{8N\mu_oI}{5R}`

`\frac{4N\mu_oI}{\sqrt5R}`

A wire of length l carries a current I along the Y direction and magnetic field is given by `\vec B=\frac\beta{\sqrt3}(\hat i+\hat j+\hat k)T`. The magnitude of Lorentz force acting on the wire is

`\sqrt{\frac2{\sqrt3}}\beta Il`

`\sqrt{\frac1{\sqrt3}}\beta Il`

`\sqrt2\beta Il`

`\sqrt{\frac1{2}}\beta Il`

A bar magnet of length l and magnetic moment M is bent in the form of an arc as shown in figure. The new magnetic dipole moment will be- (NEET 2014)

M

3/π M

2/π M

1/2 M

A non-conducting charged ring of charge q, mass m and radius r is rotated with constant angular speed ω. Find the ratio of its magnetic moment with angular momentum is

q/m

2q/m

q/2m

q/4m

The BH curve for a ferromagnetic material is shown in the figure. The material is placed inside a long solenoid which contains 1000 turns/ cm. The current that should be passed in the solenoid to demagnetize the ferromagnet completely is

1.00 m A(milli ampere)

1.25 mA

1.50 mA

1.75 mA

Two short bar magnets have magnetic moments 1.20 A`m^2` and 1.00 A`m^2` respectively. They are kept on a horizontal table parallel to each other with their north poles pointing towards the south. They have a common magnetic equator and are separated by a distance of 20.0 cm. The value of the resultant horizontal magnetic induction at the mid-point O of the line joining their centers is (Horizontal components of Earth’s magnetic induction is `3.6\times10^{-5}Wb m^{-2}`) (NSEP 2000-2001)

`3.60\times10^{-5}Wb m^{-2}`

`3.5\times10^{-5}Wb m^{-2}`

`2.56\times10^{-4}Wb m^{-2}`

`2.2\times10^{-4}Wb m^{-2}`

The vertical component of Earth’s magnetic field at a place is equal to the horizontal component. What is the value of angle of dip at this place?

30°

45°

60°

90°

A flat dielectric disc of radius R carries an excess charge on its surface. The surface charge density is σ. The disc rotates about an axis perpendicular to its plane passing through the center with angular velocity ω. Find the magnitude of the torque on the disc if it is placed in a uniform magnetic field whose strength is B which is directed perpendicular to the axis of rotation

`\frac{1}{4}``\sigma\omega\pi BR`

`\frac{1}{4}``\sigma\omega\pi BR^2`

`\frac{1}{4}``\sigma\omega\pi BR^3`

`\frac{1}{4}``\sigma\omega\pi BR^4`

A simple pendulum with charged bob is oscillating with time period T and let θ be the angular displacement. If the uniform magnetic field is switched ON in a direction perpendicular to the plane of oscillation then

time period will decrease but θ will remain constant

time period remain constant but θ will decrease

both T and θ will remain the same

both T and θ will decrease

Samacheer Kalvi EM 12th Std Physics Vol1 Unit 3 MCQs Mock Test Instructions

Unit 3: Magnetism and Magnetic Effects of Electric Current

Here you will find 15 MCQs questions and options. Read the questions carefully and select the appropriate answer for the question by selecting/clicking the box before the option. A pop-up box will open by displaying the result of the option selected. The result of each question will be based on percentages. Each question will have 3 chances to select the right option and for every chance, the percentage of scores will be reduced. Likewise, the remaining questions also take place. The overall percentage scored will be displayed at the completion of the mock test.

Note: Every time the page loads, the question and options will be randomized and takes you to the beginning of the particular exercise.

Button Navigations:

The Below Image shows the button navigations.

The Home Button On the Top and Bottom Navigates to the Homepage of the Subject (Example: To Physics if the mock test is taken from Physics).

The Next Unit Button on the Top and Bottom Navigates to the Next Unit (Example: From Unit 3 to Unit 4 and so on).

The Prev Unit Button on the Top and Bottom Navigates to the Previous Unit of the subject (Example: From Unit 3 to Unit 2 and so on).

The Next Button next to the question numbers Navigates to the Next Question (Example: From 1 to 2 and so on).

The Show All Questions Button Displays all the questions and options of that exercise on a single page.

The Option Box Icon (Box with Question mark icon), is the box that is to be selected for the correct option. By selecting/clicking the option box, a pop-up box will open by displaying the result of the option selected.

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