Home
Class 11
PHYSICS
If the distance between the centres of t...

If the distance between the centres of the atoms of potassium and bromine in KBr (potassium - bromide) molecule is `0.282xx10^(-9)`m, find the centre of mass of this particle system from potassium (mass of bromine = 80 u, and of potassium = 39 u).

Text Solution

Verified by Experts

Mass of bromine , `m_(Br)=80` units
Mass of potassium , `m_(K)=39` units
Position co-ordinate of potassium, `x_(k)=0`
Position co-ordinate of bromine, `x_(Br)=0.282xx10^(-9)m`

`:.` Position co-ordinate of centre of mass,
`x_(c )=(m_(k)x_(k)+m_(Br)+x_(Br))/(m_(k)+m_(Br))`
`x_(c )=(39xx0+80xx0.282xx10^(-9))/(39+80)`
`impliesx_(c )=0.189xx10^(-19)m`
Doubtnut Promotions Banner Mobile Dark
|

Topper's Solved these Questions

  • SYSTEM OF PARTICLES AND ROTATIONAL MOTION

    AAKASH SERIES|Exercise Exercise-I|143 Videos

  • SYSTEM OF PARTICLES AND ROTATIONAL MOTION

    AAKASH SERIES|Exercise Exercise-II|109 Videos

  • SYSTEM OF PARTICLES AND ROTATIONAL MOTION

    AAKASH SERIES|Exercise PRACTICE EXERCISE (Rotational Dynamics )|17 Videos

  • SURFACE TENSION

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE (PRACTICE SHEET (ADVANCED) INTEGER TYPE QUESTIONS )|8 Videos

  • THERMAL PROPERTIES OF MATTER

    AAKASH SERIES|Exercise ADDITIONAL PRACTICE EXERCISE (LEVEL - II) PRACTICE SHEET (ADVANCED) Integer/Subjective Type Questions|2 Videos

Similar Questions

Explore conceptually related problems

If the distance between the centres of the atoms of potassium and bromine in KB (potassium-bromide) molecule is 0.282xx10^(-9)m , find the centre of mass of this two particle system from potassium (mass of bromine = 80 u, and of potassium = 39u).

If the distance between the centres of the atoms of potassium and bromine in KBr (potassium bromide) molecule is 0.282 xx 10^(-9) m, find the centre of mass of this two particle system from potassium (mass of bromine = 80 u, and of potassium = 39 u).

Knowledge Check

  • If the distance between the centres of the atoms of potassium and bromine in KBr (potassium-bromide) molecule is 0.282xx10^(-9)m , find the centre of mass of this two particle system from potassium (mass of bromine =80u , and of potassium =39u )

    A
    `9.3xx10^(-2)nm`
    B
    `18.96xx10^(-2)nm`
    C
    `27.9xx10^(-2)nm`
    D
    `3.3xx10^(-2)nm`

  • If the distance between the centres of the atoms of potassium and bromine in KBr molecule is 0.282 xx 10^(-9) m, the centre of mass of this two particle system from potassium is (mass of bromine = 80 u and of potassium = 39 u).

    A
    `9.3xx10^(-2)nm`
    B
    `18.96 xx10^(-2)nm`
    C
    `27.9xx10^(-2)nm`
    D
    `3.3xx10^(-2)nm`

  • If the distance between the centres of the atoms of potassium and bromine in KBR molecules is 0.282xx10^(-9)m . The centre of mass of this two particle system from potassium is (mass of bromine = 80 u and of potassium = 39 u).

    A
    `9.3xx10^(-2)nm`
    B
    `18.96xx10^(-2)nm`
    C
    `27.9xx10^(-2)nm`
    D
    `3.3xx10^(-2)nm`

    • Similar Questions

    Explore conceptually related problems

    The distance between the centres of carbon and oxygen atoms in the carbon monoxide gas molecule is 1.13xx10^(-10)m . The distance of centre of mass of the molecule relative to carbon atom is

    The distance between the centres of carbon and oxygen atoms in the carbon monoxide gas molecule is 1.13xx10^(-10)m . The distance of centre of mass of the molecule relative to carbon atom is

    The distance between the centres of carbon and oxygen atoms in the carbon monoxide gas molecule is 1.13xx10^(-10)m . The distance of centre of mass of the molecule relative to carbon atom is

    The distance between the centres of carbon and oxygen atoms in the carbon monoxide gas molecule is 1.13x 10^(-10) m . The distance of centre of mass of the molecule relative to carbon atom iss

    The distance between the two nucleii of HCl is 1.27A. If the mass of chlorine atom is 37 times that of Hydrogen, the centre of mass of the system from the Hydrogen nucleus is

    Home
    Profile