Chemistry-
General
Easy
Question
Methanol and acetone can be separated by:
- fractional distillation
- distillation
- steam distillation
- vacuum distillation
The correct answer is: fractional distillation
Related Questions to study
chemistry-
Decreasing order of solubility of following compounds is:
![](data:image/png;base64,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)
Decreasing order of solubility of following compounds is:
![](data:image/png;base64,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)
chemistry-General
chemistry-
Which of the following statement is correct about tropolone?
![](data:image/png;base64,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)
Which of the following statement is correct about tropolone?
![](data:image/png;base64,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)
chemistry-General
chemistry-
In which case first has higher solubility than second?
I) Phenol, Benzene
II) Nitrobenzene, Phenol
III) o–Hydroxybenzaldehyde, p–Hydroxy benzaldehyde
IV) CH3CHO, CH3–O–CH3
V) o–Nitrophenol, p–Nitrophenol
VI) ![](data:image/png;base64,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)
In which case first has higher solubility than second?
I) Phenol, Benzene
II) Nitrobenzene, Phenol
III) o–Hydroxybenzaldehyde, p–Hydroxy benzaldehyde
IV) CH3CHO, CH3–O–CH3
V) o–Nitrophenol, p–Nitrophenol
VI) ![](data:image/png;base64,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)
chemistry-General
maths-
If
and
are the eccentric angles of the extremities of a focal chord of an ellipse, then the eccentricity of the ellipse is
If
and
are the eccentric angles of the extremities of a focal chord of an ellipse, then the eccentricity of the ellipse is
maths-General
maths-
The point
is an interior point of the region bounded by the parabola
and the double ordinate through the focus Then ‘a’ belongs to the open interval
The point
is an interior point of the region bounded by the parabola
and the double ordinate through the focus Then ‘a’ belongs to the open interval
maths-General
maths-
Through the vertex
ofthe parabola
chords OP, OQ are drawn at right angles to each other If the locus of mid points of the chord PQ is a parabola then its vertex is
Through the vertex
ofthe parabola
chords OP, OQ are drawn at right angles to each other If the locus of mid points of the chord PQ is a parabola then its vertex is
maths-General
maths-
The area of the trapezium whose vertices lie on the parabola
and its diagonals pass through
and having length
units each is
The area of the trapezium whose vertices lie on the parabola
and its diagonals pass through
and having length
units each is
maths-General
maths-
The Locus of centre of circle which touches given circle externally and the given line is
The Locus of centre of circle which touches given circle externally and the given line is
maths-General
maths-
If the length of tangents from
to the circles
and
are equal then ![10 a minus 2 b equals](data:image/png;base64,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)
If the length of tangents from
to the circles
and
are equal then ![10 a minus 2 b equals](data:image/png;base64,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)
maths-General
maths-
The line
cuts the circle
in
and Q Then the equation of the smaller circle passing through
and ![Q](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAA0AAAAOCAYAAAD0f5bSAAAACXBIWXMAAA7EAAAOxAGVKw4bAAAABGJhU0UAAAAMyZLetQAAALtJREFUeNpjYMAO3IB4BxB/A+IfQHwYiB0Z8IAOIN4AxKZAzATFfkD8EoitsWnIA+KZOAwD2XQcXVAWiK9ATcYFPgAxG7JAKxDnMOAHu4HYAFkAZIs8AU0PgZgLxmGChhQ+wAJ1HorAJwKagoB4IbrgNwKBcBTdPwxQUxJxaKgE4i5sEhpA/BiI46HOBQE9IF4MDVmcwByI90OTDgj/B+IsBhJBOBA/B+IzQJwMxKLEauQB4nIgvgZNyAwAqaghgYyCZAkAAABJdEVYdE1hdGhNTAA8bWF0aCB4bWxucz0iaHR0cDovL3d3dy53My5vcmcvMTk5OC9NYXRoL01hdGhNTCI+PG1pPlE8L21pPjwvbWF0aD715aU4AAAAAElFTkSuQmCC)
The line
cuts the circle
in
and Q Then the equation of the smaller circle passing through
and ![Q](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAA0AAAAOCAYAAAD0f5bSAAAACXBIWXMAAA7EAAAOxAGVKw4bAAAABGJhU0UAAAAMyZLetQAAALtJREFUeNpjYMAO3IB4BxB/A+IfQHwYiB0Z8IAOIN4AxKZAzATFfkD8EoitsWnIA+KZOAwD2XQcXVAWiK9ATcYFPgAxG7JAKxDnMOAHu4HYAFkAZIs8AU0PgZgLxmGChhQ+wAJ1HorAJwKagoB4IbrgNwKBcBTdPwxQUxJxaKgE4i5sEhpA/BiI46HOBQE9IF4MDVmcwByI90OTDgj/B+IsBhJBOBA/B+IzQJwMxKLEauQB4nIgvgZNyAwAqaghgYyCZAkAAABJdEVYdE1hdGhNTAA8bWF0aCB4bWxucz0iaHR0cDovL3d3dy53My5vcmcvMTk5OC9NYXRoL01hdGhNTCI+PG1pPlE8L21pPjwvbWF0aD715aU4AAAAAElFTkSuQmCC)
maths-General
maths-
If the angle between two equal circles with centres
,
is 12
then the radius of the circle is
If the angle between two equal circles with centres
,
is 12
then the radius of the circle is
maths-General
maths-
The equation of the circle passing through the origin and the points of intersection of the circles
![x to the power of 2 end exponent plus y to the power of 2 end exponent plus 4 x minus 2 y minus 4 equals 0](data:image/png;base64,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)
The equation of the circle passing through the origin and the points of intersection of the circles
![x to the power of 2 end exponent plus y to the power of 2 end exponent plus 4 x minus 2 y minus 4 equals 0](data:image/png;base64,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)
maths-General
maths-
The locus of a point such that difference of the squares of the tangents from it to two given circles is constant, is given by
The locus of a point such that difference of the squares of the tangents from it to two given circles is constant, is given by
maths-General
maths-
Radical centre of the circles
![x to the power of 2 end exponent plus y to the power of 2 end exponent plus 4 x minus 6 y plus 4 equals 0](data:image/png;base64,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)
Radical centre of the circles
![x to the power of 2 end exponent plus y to the power of 2 end exponent plus 4 x minus 6 y plus 4 equals 0](data:image/png;base64,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)
maths-General
maths-
The radical axis of circles
and
‐5x
is
The radical axis of circles
and
‐5x
is
maths-General