(A) Given: Mass $m = 1\, kg$,Radius $r = 0.1\, m$,Frequency $n = 3\, rev/s$.Angular velocity $\omega = 2\pi n = 2 \times 3.14 \times 3 = 18.84\, rad/s

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$1.88\, m/s, 35.5\, m/s^2, 35.5\, N$

(A) Given: Mass $m = 1\, kg$,Radius $r = 0.1\, m$,Frequency $n = 3\, rev/s$.Angular velocity $\omega = 2\pi n = 2 \times 3.14 \times 3 = 18.84\, rad/s$.Linear velocity $v = \omega r = 18.84 \times 0.1 = 1.88\, m/s$.Centripetal acceleration $a = \omega^2 r = (18.84)^2 \times 0.1 = 354.94 \times 0.1 \approx 35.5\, m/s^2$.Tension in the string $T = m a = 1 \times 35.5 = 35.5\, N$.

Class 11 Physics 3-2.Motion in Plane Mix Examples-Motion in Plane

Medium

$A$ body of mass $1\, kg$ tied to one end of a string is revolved in a horizontal circle of radius $0.1\, m$ with a speed of $3$ revolutions per second. Assuming the effect of gravity is negligible,the linear velocity,acceleration,and tension in the string will be:

A
$1.88\, m/s, 35.5\, m/s^2, 35.5\, N$
B
$2.88\, m/s, 45.5\, m/s^2, 45.5\, N$
C
$3.88\, m/s, 55.5\, m/s^2, 55.5\, N$
D
None of these

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$A$ projectile is projected at an angle of $30^{\circ}$ from the horizontal with an initial velocity $u$. If the range of the projectile is $R$,what will be the range if the projectile is projected at an angle of $60^{\circ}$ with the same initial velocity?

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The second's hand of a watch has a length of $6\,cm$. The speed of the end point and the magnitude of the difference of velocities at two perpendicular positions will be:

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$A$ ball of mass $100 \ g$ is projected with velocity $20 \ m/s$ at $60^{\circ}$ with the horizontal. The decrease in kinetic energy of the ball during the motion from the point of projection to the highest point is:

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$A$ body of mass $1\, kg$ tied to one end of a string is revolved in a horizontal circle of radius $0.1\, m$ with a speed of $3$ revolutions per second. Assuming the effect of gravity is negligible,the linear velocity,acceleration,and tension in the string will be:

Similar Questions

$A$ projectile is projected at an angle of $30^{\circ}$ from the horizontal with an initial velocity $u$. If the range of the projectile is $R$,what will be the range if the projectile is projected at an angle of $60^{\circ}$ with the same initial velocity?

Starting from the origin at time $t=0,$ with initial velocity $5 \hat{j} \, m/s,$ a particle moves in the $x-y$ plane with a constant acceleration of $(10 \hat{i} + 4 \hat{j}) \, m/s^2$. At time $t$,its coordinates are $(20 \, m, y_0 \, m)$. The values of $t$ and $y_0$ are respectively:

$A$ particle is projected. If after $2 \, s$ it makes an angle of $30^\circ$ with the horizontal and after $1 \, s$ more it is moving horizontally,find the initial velocity and angle of projection of the particle.

The second's hand of a watch has a length of $6\,cm$. The speed of the end point and the magnitude of the difference of velocities at two perpendicular positions will be:

$A$ ball of mass $100 \ g$ is projected with velocity $20 \ m/s$ at $60^{\circ}$ with the horizontal. The decrease in kinetic energy of the ball during the motion from the point of projection to the highest point is:

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