Maths-

General

Easy

Question

A spotlight installed in the ground shines on a wall. A woman stands between the light and the wall casting a shadow on the wall. How are the rate at which she walks away from the light and rate at which her shadow grows related ?

One is a constant multiple of the other
It depends also on how close the woman is to the light
They are equal
They are independent

The correct answer is: It depends also on how close the woman is to the light

If reaction is R and coefficient of friction is $blank mu$ , what is work done against friction in moving a body by distance d?

physics-General

General

physics-

The force $F$ acting on a particle moving in a straight line is shown in figure. What is the work done by the force on the particle in the 1^st meter of the trajectory

physics-General

General

physics-

The pointer reading $v divided by s$ load graph for a spring balance is as given in the figure. The spring constant is

physics-General

General

physics-

The force acting on a body moving along $x$ -axis varies with the position of the particle as shown in the fig

The body is in stable equilibrium at

physics-General

General

physics-

A frictionless track $A B C D E$ ends in a circular loop of radius $R$ . A body slides down the track from point $A$ which is it $a$ height $h equals 5 blank c m$ . Maximum value of $R$ for the body to successfully complete the loop is

physics-General

General

physics-

Velocity-time graph of a particle of mass 2 kg moving in a straight line is as shown in figure. Work done by all forces on the particle is

physics-General

General

Maths-

Domain of definition of the function $f left parenthesis x right parenthesis equals fraction numerator 1 over denominator 4 minus x squared end fraction plus l o g subscript 10 invisible function application open parentheses x cubed minus x close parentheses$ , is

Maths-General

General

physics-

If $w subscript 1 end subscript comma w subscript 2 blank a n d blank W subscript 3 end subscript end subscript$ represent the work done in moving a particle from A to B along three different paths 1, 2 and 3 respectively(as shown)in the gravitational field of a point mass m. Find the correct relation between $w subscript 1 end subscript comma w subscript 2 end subscript a n d blank w subscript 3 end subscript$

physics-General

General

physics-

Given below is a graph between a variable force $left parenthesis F right parenthesis$ (along $y$ -axis) and the displacement $left parenthesis X right parenthesis$ (along $x$ -axis) of a particle in one dimension. The work done by the force in the displacement interval between $0 blank m$ and $30 blank m$ is

physics-General

General

physics-

A particle of mass $m$ moving with a velocity $u$ makes an elastic one dimensional collision with a stationary particle of mass $m$ establishing a contact with it for extremely small time $T$ . Their force of contact increases from zero to $F subscript 0 end subscript$ linearly in time $T divided by 4$ , remains constant for a further time $T divided by 2$ and decreases linearly from $F subscript 0 end subscript$ to zero in further time $T divided by 4$ as shown. The magnitude possessed by $F subscript 0 end subscript$ is

physics-General

General

Maths-

Let $A$ be a set containing 10 distinct elements, then the total number of distinct functions from $A$ to $A$ is-

The domain is defined as the set which is to input in a function. We say that input values satisfy a function. The range is defined as the actual output supposed to be obtained by entering the domain of the function.
Co-domain is defined as the values that are present in the right set that is set Y, possible values expected to come out after entering domain values.

Let $A$ be a set containing 10 distinct elements, then the total number of distinct functions from $A$ to $A$ is-

Maths-General

General

maths-

The number of bijective functions from set A to itself when a contains 106 elements-

maths-General

General

physics-

The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of $20 blank m$ is

physics-General

General

physics-

A particle is acted upon by a force $F$ which varies with position $x$ as shown in figure. If the particle at $x equals 0$ has kinetic energy of 25 J, then the kinetic energy of the particle at $x equals 16 blank m$ is

physics-General

General

physics-

A vertical spring with force constant $K$ is fixed on a table. A ball of mass $m$ at a height $h$ above the free upper end of the spring falls vertically on the spring so that the spring is compressed by a distance $d$ . The net work done in the process is

physics-General

Have a query? Ask a Tutor!!

Can’t find what you’re looking for?

A spotlight installed in the ground shines on a wall. A woman stands between the light and the wall casting a shadow on the wall. How are the rate at which she walks away from the light and rate at which her shadow grows related ?

One is a constant multiple of the other It depends also on how close the woman is to the light They are equal They are independent

The correct answer is: It depends also on how close the woman is to the light

Related Questions to study

If reaction is R and coefficient of friction is, what is work done against friction in moving a body by distance d?

If reaction is R and coefficient of friction is, what is work done against friction in moving a body by distance d?

The force acting on a particle moving in a straight line is shown in figure. What is the work done by the force on the particle in the 1st meter of the trajectory

The force acting on a particle moving in a straight line is shown in figure. What is the work done by the force on the particle in the 1st meter of the trajectory

The pointer reading load graph for a spring balance is as given in the figure. The spring constant is

The pointer reading load graph for a spring balance is as given in the figure. The spring constant is

The force acting on a body moving along -axis varies with the position of the particle as shown in the figThe body is in stable equilibrium at

The force acting on a body moving along -axis varies with the position of the particle as shown in the figThe body is in stable equilibrium at

A frictionless track ends in a circular loop of radius . A body slides down the track from point which is it height . Maximum value of for the body to successfully complete the loop is

A frictionless track ends in a circular loop of radius . A body slides down the track from point which is it height . Maximum value of for the body to successfully complete the loop is

Velocity-time graph of a particle of mass 2 kg moving in a straight line is as shown in figure. Work done by all forces on the particle is

Velocity-time graph of a particle of mass 2 kg moving in a straight line is as shown in figure. Work done by all forces on the particle is

Domain of definition of the function, is

Domain of definition of the function, is

If represent the work done in moving a particle from A to B along three different paths 1, 2 and 3 respectively(as shown)in the gravitational field of a point mass m. Find the correct relation between

If represent the work done in moving a particle from A to B along three different paths 1, 2 and 3 respectively(as shown)in the gravitational field of a point mass m. Find the correct relation between

Given below is a graph between a variable force (along -axis) and the displacement (along -axis) of a particle in one dimension. The work done by the force in the displacement interval between and is

Given below is a graph between a variable force (along -axis) and the displacement (along -axis) of a particle in one dimension. The work done by the force in the displacement interval between and is

Let be a set containing 10 distinct elements, then the total number of distinct functions from to is-

Let be a set containing 10 distinct elements, then the total number of distinct functions from to is-

The number of bijective functions from set A to itself when a contains 106 elements-

The number of bijective functions from set A to itself when a contains 106 elements-

The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of is

The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of is

A particle is acted upon by a force which varies with position as shown in figure. If the particle at has kinetic energy of 25 J, then the kinetic energy of the particle at is

A particle is acted upon by a force which varies with position as shown in figure. If the particle at has kinetic energy of 25 J, then the kinetic energy of the particle at is

A vertical spring with force constant is fixed on a table. A ball of mass at a height above the free upper end of the spring falls vertically on the spring so that the spring is compressed by a distance . The net work done in the process is

A vertical spring with force constant is fixed on a table. A ball of mass at a height above the free upper end of the spring falls vertically on the spring so that the spring is compressed by a distance . The net work done in the process is

With Turito Academy.

With Turito Foundation.

Get an Expert Advice From Turito.

Turito Academy

With Turito Academy.

Test Prep

With Turito Foundation.

Courses

Quick Links

One is a constant multiple of the other
It depends also on how close the woman is to the light
They are equal
They are independent

If reaction is R and coefficient of friction is $blank mu$ , what is work done against friction in moving a body by distance d?

If reaction is R and coefficient of friction is $blank mu$ , what is work done against friction in moving a body by distance d?

The force $F$ acting on a particle moving in a straight line is shown in figure. What is the work done by the force on the particle in the 1^st meter of the trajectory

The force $F$ acting on a particle moving in a straight line is shown in figure. What is the work done by the force on the particle in the 1^st meter of the trajectory

The pointer reading $v divided by s$ load graph for a spring balance is as given in the figure. The spring constant is

The pointer reading $v divided by s$ load graph for a spring balance is as given in the figure. The spring constant is

The force acting on a body moving along $x$ -axis varies with the position of the particle as shown in the fig

The body is in stable equilibrium at

The force acting on a body moving along $x$ -axis varies with the position of the particle as shown in the fig

The body is in stable equilibrium at

A frictionless track $A B C D E$ ends in a circular loop of radius $R$ . A body slides down the track from point $A$ which is it $a$ height $h equals 5 blank c m$ . Maximum value of $R$ for the body to successfully complete the loop is

A frictionless track $A B C D E$ ends in a circular loop of radius $R$ . A body slides down the track from point $A$ which is it $a$ height $h equals 5 blank c m$ . Maximum value of $R$ for the body to successfully complete the loop is

Domain of definition of the function $f left parenthesis x right parenthesis equals fraction numerator 1 over denominator 4 minus x squared end fraction plus l o g subscript 10 invisible function application open parentheses x cubed minus x close parentheses$ , is

Domain of definition of the function $f left parenthesis x right parenthesis equals fraction numerator 1 over denominator 4 minus x squared end fraction plus l o g subscript 10 invisible function application open parentheses x cubed minus x close parentheses$ , is

Let $A$ be a set containing 10 distinct elements, then the total number of distinct functions from $A$ to $A$ is-

Let $A$ be a set containing 10 distinct elements, then the total number of distinct functions from $A$ to $A$ is-

The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of $20 blank m$ is

The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of $20 blank m$ is

A particle is acted upon by a force $F$ which varies with position $x$ as shown in figure. If the particle at $x equals 0$ has kinetic energy of 25 J, then the kinetic energy of the particle at $x equals 16 blank m$ is

A particle is acted upon by a force $F$ which varies with position $x$ as shown in figure. If the particle at $x equals 0$ has kinetic energy of 25 J, then the kinetic energy of the particle at $x equals 16 blank m$ is

A vertical spring with force constant $K$ is fixed on a table. A ball of mass $m$ at a height $h$ above the free upper end of the spring falls vertically on the spring so that the spring is compressed by a distance $d$ . The net work done in the process is

A vertical spring with force constant $K$ is fixed on a table. A ball of mass $m$ at a height $h$ above the free upper end of the spring falls vertically on the spring so that the spring is compressed by a distance $d$ . The net work done in the process is