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### Related Questions to study

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#### If

#### If

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physics-

#### Acceleration velocity graph of a particle moving in a straight line is as shown in figure. The slope of velocity-displacement graph

From acceleration-velocity graph, we have where is a constant which represents the slope of the given line.

As, so

or constant

Thus, the slope of velocity-displacement graphs is same as that of acceleration velocity. Which is constant.

As, so

or constant

Thus, the slope of velocity-displacement graphs is same as that of acceleration velocity. Which is constant.

#### Acceleration velocity graph of a particle moving in a straight line is as shown in figure. The slope of velocity-displacement graph

physics-General

From acceleration-velocity graph, we have where is a constant which represents the slope of the given line.

As, so

or constant

Thus, the slope of velocity-displacement graphs is same as that of acceleration velocity. Which is constant.

As, so

or constant

Thus, the slope of velocity-displacement graphs is same as that of acceleration velocity. Which is constant.

maths-

#### If then solutions of are in -

#### If then solutions of are in -

maths-General

maths-

#### In , care in H.P., then , Sin2 , Sin2 are in

are in are in are in

#### In , care in H.P., then , Sin2 , Sin2 are in

maths-General

are in are in are in

maths-

#### Solution of is

#### Solution of is

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maths-

#### If then the general solution of

#### If then the general solution of

maths-General

physics-

#### The graph between the displacement and for a particle moving in a straight line is shown in figure. During the interval and the acceleration of the particle is

,

Region shows that graph bending toward time axis acceleration is negative.

Region shows that graph is parallel to time axisvelocity is zero. Hence acceleration is zero.

Region shows that graph is bending towards displacement axis acceleration is positive.

Region shows that graph having constant slope velocity is constant. Hence acceleration is zero

Region shows that graph is parallel to time axisvelocity is zero. Hence acceleration is zero.

Region shows that graph is bending towards displacement axis acceleration is positive.

Region shows that graph having constant slope velocity is constant. Hence acceleration is zero

#### The graph between the displacement and for a particle moving in a straight line is shown in figure. During the interval and the acceleration of the particle is

,

physics-General

Region shows that graph bending toward time axis acceleration is negative.

Region shows that graph is parallel to time axisvelocity is zero. Hence acceleration is zero.

Region shows that graph is bending towards displacement axis acceleration is positive.

Region shows that graph having constant slope velocity is constant. Hence acceleration is zero

Region shows that graph is parallel to time axisvelocity is zero. Hence acceleration is zero.

Region shows that graph is bending towards displacement axis acceleration is positive.

Region shows that graph having constant slope velocity is constant. Hence acceleration is zero

maths-

#### then the general solution of =

#### then the general solution of =

maths-General

physics-

#### Velocity-time - graph for a moving object is shown in the figure. Total displacement of the object during the same interval when there is non-zero acceleration and retardation is

Between time interval to , there is non-zero acceleration and retardation. Hence distance travelled during this interval

Area between time interval to

Area between time interval to

#### Velocity-time - graph for a moving object is shown in the figure. Total displacement of the object during the same interval when there is non-zero acceleration and retardation is

physics-General

Between time interval to , there is non-zero acceleration and retardation. Hence distance travelled during this interval

Area between time interval to

Area between time interval to

maths-

#### In

Given

( AsinBsin )

( AsinBsin )

#### In

maths-General

Given

( AsinBsin )

( AsinBsin )

maths-

#### then the general solution of =

#### then the general solution of =

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maths-

#### Solution of is

#### Solution of is

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maths-

#### The general solution of is

#### The general solution of is

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maths-

#### If

#### If

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maths-

#### In (B-C)

#### In (B-C)

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