Chemistry-
General
Easy

Question

The process of separation of insoluble solids from its suspension is called...

  1. Filtration    
  2. Sedimentation    
  3. Sieving    
  4. None    

The correct answer is: Sedimentation

Related Questions to study

General
Chemistry-

In filtration method the solid we use is ...

In filtration method the solid we use is ...

Chemistry-General
General
Chemistry-

Stones can be separated from rice by:

Stones can be separated from rice by:

Chemistry-General
General
Chemistry-

Statement (A) : Chemical composition remains same in physical change.
Statement (B) : Chemical composition changes in chemical change.

Statement (A) : Chemical composition remains same in physical change.
Statement (B) : Chemical composition changes in chemical change.

Chemistry-General
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General
Chemistry-

Statement (A) : Burning of LPG is an example of chemical change. Statement (B) : Clotting of blood is an example of chemical change.

Statement (A) : Burning of LPG is an example of chemical change. Statement (B) : Clotting of blood is an example of chemical change.

Chemistry-General
General
Chemistry-

Which of the following is an example of chemical change?

Which of the following is an example of chemical change?

Chemistry-General
General
Chemistry-

Which of the following is a chemical change?

Which of the following is a chemical change?

Chemistry-General
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General
Maths-

Number of solutions to equation square root of vertical line sin invisible function application vertical line cos invisible function application x vertical line vertical line plus vertical line cos invisible function application vertical line sin invisible function application x vertical line vertical line 11 end root equalssin to the power of minus invisible function application 1 vertical line cos invisible function application x vertical line minus cos to the power of minus invisible function application 1 vertical line sin invisible function application x vertical line;if text  xΠ end text left square bracket 0 comma 4 p right square bracket is

Number of solutions to equation square root of vertical line sin invisible function application vertical line cos invisible function application x vertical line vertical line plus vertical line cos invisible function application vertical line sin invisible function application x vertical line vertical line 11 end root equalssin to the power of minus invisible function application 1 vertical line cos invisible function application x vertical line minus cos to the power of minus invisible function application 1 vertical line sin invisible function application x vertical line;if text  xΠ end text left square bracket 0 comma 4 p right square bracket is

Maths-General
General
maths-

fraction numerator d over denominator d x end fraction open parentheses fraction numerator 2 x minus 3 over denominator 3 x plus 1 end fraction close parentheses equals

fraction numerator d over denominator d x end fraction open parentheses fraction numerator 2 x minus 3 over denominator 3 x plus 1 end fraction close parentheses equals

maths-General
General
maths-

If D left parenthesis x right parenthesis equals open vertical bar table row cell x minus 2 end cell cell left parenthesis x minus 1 right parenthesis to the power of 2 end exponent end cell cell x to the power of 3 end exponent end cell row cell x minus 1 end cell cell x to the power of 2 end exponent end cell cell left parenthesis x plus 1 right parenthesis to the power of 3 end exponent end cell row x cell left parenthesis x plus 1 right parenthesis to the power of 2 end exponent end cell cell left parenthesis x plus 2 right parenthesis to the power of 3 end exponent end cell end table close vertical bar, then coefficient of x in D(x) is :

If D left parenthesis x right parenthesis equals open vertical bar table row cell x minus 2 end cell cell left parenthesis x minus 1 right parenthesis to the power of 2 end exponent end cell cell x to the power of 3 end exponent end cell row cell x minus 1 end cell cell x to the power of 2 end exponent end cell cell left parenthesis x plus 1 right parenthesis to the power of 3 end exponent end cell row x cell left parenthesis x plus 1 right parenthesis to the power of 2 end exponent end cell cell left parenthesis x plus 2 right parenthesis to the power of 3 end exponent end cell end table close vertical bar, then coefficient of x in D(x) is :

maths-General
parallel
General
maths-

The system of homogeneous equations t x plus left parenthesis t plus 1 right parenthesis y plus left parenthesis t minus 1 right parenthesis z equals 0 comma left parenthesis t plus 1 right parenthesis x plus l y plus left parenthesis t plus 2 right parenthesis z equals 0 comma left parenthesis t minus 1 right parenthesis x plus left parenthesis t plus 2 right parenthesis y plus l z equals 0 has a non‐ trivial solution for

The system of homogeneous equations t x plus left parenthesis t plus 1 right parenthesis y plus left parenthesis t minus 1 right parenthesis z equals 0 comma left parenthesis t plus 1 right parenthesis x plus l y plus left parenthesis t plus 2 right parenthesis z equals 0 comma left parenthesis t minus 1 right parenthesis x plus left parenthesis t plus 2 right parenthesis y plus l z equals 0 has a non‐ trivial solution for

maths-General
General
maths-

The number of points in the rectangle left curly bracket left parenthesis x comma y right parenthesis vertical line minus 12 less or equal than x less or equal than 12 a n d minus 3 less or equal than y less or equal than 3 right curly bracket which lie on the curve y equals x plus blank s i n blank x and at which the tangent to the curve is parallel to the x ‐axis is

The number of points in the rectangle left curly bracket left parenthesis x comma y right parenthesis vertical line minus 12 less or equal than x less or equal than 12 a n d minus 3 less or equal than y less or equal than 3 right curly bracket which lie on the curve y equals x plus blank s i n blank x and at which the tangent to the curve is parallel to the x ‐axis is

maths-General
General
maths-

Tangent drawn at any point to the curve f left parenthesis x right parenthesis equals x to the power of 5 end exponent plus 3 x to the power of 3 end exponent plus 4 x plus 8 always makes

Tangent drawn at any point to the curve f left parenthesis x right parenthesis equals x to the power of 5 end exponent plus 3 x to the power of 3 end exponent plus 4 x plus 8 always makes

maths-General
parallel
General
maths-

If the normal to the curve y=f(x) at the point (3, 4) makes an angle fraction numerator 3 pi over denominator 4 end fraction with the positive x‐axis then f to the power of ’ end exponent left parenthesis 3 right parenthesis equals

If the normal to the curve y=f(x) at the point (3, 4) makes an angle fraction numerator 3 pi over denominator 4 end fraction with the positive x‐axis then f to the power of ’ end exponent left parenthesis 3 right parenthesis equals

maths-General
General
maths-

The point(s) on the curve y to the power of 3 end exponent plus 3 x to the power of 2 end exponent equals 12 y where the tangent is vertical is (are)

The point(s) on the curve y to the power of 3 end exponent plus 3 x to the power of 2 end exponent equals 12 y where the tangent is vertical is (are)

maths-General
General
Maths-

The radius and height of a cylinder are equal to the radius of sphere The ratio of the rates of change of the volume of the sphere and cylinder is

Here we used the concept of differentiation and the formulas of cylinder and sphere to find the ratio. Given that the ratio of the rates of growth of the sphere's and cylinder's volumes is 3:4, the ratio of the rates of growth of the cylinder's volume to that of the sphere's volume is 4:3.

The radius and height of a cylinder are equal to the radius of sphere The ratio of the rates of change of the volume of the sphere and cylinder is

Maths-General

Here we used the concept of differentiation and the formulas of cylinder and sphere to find the ratio. Given that the ratio of the rates of growth of the sphere's and cylinder's volumes is 3:4, the ratio of the rates of growth of the cylinder's volume to that of the sphere's volume is 4:3.

parallel

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