Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito Championship

Can’t find what you’re looking for?

Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

Homework- One to One Solutions
Understand concepts to solve better
Get your doubts solved instantly

Physics-

General

Easy

Question

A small ball of mass m is suspended from inextensible massless string of length L. At certain instant of time the velocity of point O is $V subscript 0 end subscript$ (rightward direction) & of ball A is 2 $V subscript 0 end subscript$ (leftward direction). Then tension in the string at this instant of time.

$m g + \frac{4 {m v}_{0}^{2}}{l}$
$m g + \frac{9 {m v}_{0}^{2}}{l}$
$m g + \frac{{m v}_{0}^{2}}{l}$
none of these

The correct answer is: $m g plus fraction numerator 9 m v subscript 0 end subscript superscript 2 end superscript over denominator l end fraction$

Related Questions to study

A water molecule as shown is in a region of uniform electric field $stack E with rightwards arrow on top equals 1000 stack i with hat on top V divided by m$ This molecule experiences

A water molecule as shown is in a region of uniform electric field $stack E with rightwards arrow on top equals 1000 stack i with hat on top V divided by m$ This molecule experiences

physics-General

The diagram shows a uniformly charged hemisphere of radius R. It has volume charge density $rho$ . If the electric field at a point 2R distance above its center is E then what is the electric field at the point which is 2R below its center?

The diagram shows a uniformly charged hemisphere of radius R. It has volume charge density $rho$ . If the electric field at a point 2R distance above its center is E then what is the electric field at the point which is 2R below its center?

physics-General

The figure to the right shows the potential due to two similarly charged infinite sheets with charge per unit area $sigma subscript 1 end subscript$ and $sigma subscript 2 end subscript$ . From examining this plot we can deduce that

The figure to the right shows the potential due to two similarly charged infinite sheets with charge per unit area $sigma subscript 1 end subscript$ and $sigma subscript 2 end subscript$ . From examining this plot we can deduce that

physics-General

parallel

In the figure below, a point charge +Q₁ is at the center of an imaginary spherical gaussian surface and another point charge + Q₂ is outside of the gaussian surface. Point P is on the surface of the sphere. Which one of the following statements is true?

In the figure below, a point charge +Q₁ is at the center of an imaginary spherical gaussian surface and another point charge + Q₂ is outside of the gaussian surface. Point P is on the surface of the sphere. Which one of the following statements is true?

physics-General

A point negative charge – Q is placed at a distance r from a dipole with dipole moment P as shown in figure. The force acting on the charge – Q is

A point negative charge – Q is placed at a distance r from a dipole with dipole moment P as shown in figure. The force acting on the charge – Q is

physics-General

We have two electric dipoles. Each dipole consists of two equal and opposite point charges at the end of an insulating rod of length d. The dipoles are placed along the x-axis at a large distance r apart oriented as shown below:

The dipole on the right

We have two electric dipoles. Each dipole consists of two equal and opposite point charges at the end of an insulating rod of length d. The dipoles are placed along the x-axis at a large distance r apart oriented as shown below:

The dipole on the right

physics-General

parallel

We have two electric dipoles. Each dipole consists of two equal and opposite point charges at the end of an insulating rod of length d. The dipoles are placed along the x-axis at a large distance r apart oriented as shown below:

The dipole on the left

We have two electric dipoles. Each dipole consists of two equal and opposite point charges at the end of an insulating rod of length d. The dipoles are placed along the x-axis at a large distance r apart oriented as shown below:

The dipole on the left

physics-General

An electric dipole, consisting of two equal and opposite point charges at the ends of a insulating rod, is placed in the electric field of a stationary positive point charge, as shown. The dipole is free to move. The dipole will

An electric dipole, consisting of two equal and opposite point charges at the ends of a insulating rod, is placed in the electric field of a stationary positive point charge, as shown. The dipole is free to move. The dipole will

physics-General

The field line to the right is a field line of the electric field, then its representation can be

The field line to the right is a field line of the electric field, then its representation can be

physics-General

parallel

Obtain w if the focal length of the mirror formed by shiny liquid surface is 20 cm

Obtain w if the focal length of the mirror formed by shiny liquid surface is 20 cm

physics-General

At equilibrium find the angle q made by tangent to the surface at P (x, y) with the horizontal

At equilibrium find the angle q made by tangent to the surface at P (x, y) with the horizontal

physics-General

An equiconcave diverging lens of focal length F is cut into two equal halves. The two halves are turned around and joined with some liquid between them. The lens obtained is converging with focal length F. If the refractive index of the liquid is 3 then what is the refractive index of the lens?

An equiconcave diverging lens of focal length F is cut into two equal halves. The two halves are turned around and joined with some liquid between them. The lens obtained is converging with focal length F. If the refractive index of the liquid is 3 then what is the refractive index of the lens?

physics-General

parallel

A nonconducting ring of radius R has two charges q and q/2 distributed uniformly on two half of it. A negative charge q/2 (mass = m) is placed at a distance R from the centre of the ring on its axis at a point P and released. If this charge is restricted to move freely only along the axis of the ring, find the speed of this charge when it crosses the centre of the ring

A nonconducting ring of radius R has two charges q and q/2 distributed uniformly on two half of it. A negative charge q/2 (mass = m) is placed at a distance R from the centre of the ring on its axis at a point P and released. If this charge is restricted to move freely only along the axis of the ring, find the speed of this charge when it crosses the centre of the ring

physics-General

An electroscope is given a positive charge, causing its foil leaves to separate. When an object is brought near the top plate of the electroscope, the foils separate even further. We could conclude

An electroscope is given a positive charge, causing its foil leaves to separate. When an object is brought near the top plate of the electroscope, the foils separate even further. We could conclude

physics-General

Two point like charges a & b whose magnitudes are same are positioned at a certain distance from each other, a is at origin. Graph is drawn between electric field strength and distance x from a. E is taken positive if it is along the line joining from a to b

Two point like charges a & b whose magnitudes are same are positioned at a certain distance from each other, a is at origin. Graph is drawn between electric field strength and distance x from a. E is taken positive if it is along the line joining from a to b

physics-General

parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.