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Maths-

General

Easy

Question

Simplify the following circuit and find the boolean polynomial.

$p \lor (q \land r)$
$p \land (q \lor r)$
$p \lor (q \lor r)$
$p \land (q \land r)$

The correct answer is: $p logical or left parenthesis q logical and r right parenthesis$

$open parentheses p logical or q close parentheses logical and open parentheses p logical or r close parentheses equals p logical or left parenthesis q logical and r right parenthesis$

Related Questions to study

For the circuit shown below, the Boolean polynomial is

For the circuit shown below, the Boolean polynomial is

Shaded region is represented by

Shaded region is represented by

The feasible region for the following constraints $L subscript 1 end subscript less or equal than 0 blank L subscript 2 end subscript greater or equal than 0 comma blank L subscript 3 end subscript equals 0 comma blank x greater or equal than 0 comma blank y greater or equal than 0$ in the diagram shown is

The feasible region for the following constraints $L subscript 1 end subscript less or equal than 0 blank L subscript 2 end subscript greater or equal than 0 comma blank L subscript 3 end subscript equals 0 comma blank x greater or equal than 0 comma blank y greater or equal than 0$ in the diagram shown is

parallel

here product is

here product is

chemistry-General

What product of the following reaction is -

What product of the following reaction is -

chemistry-General

In the reaction
X is:

In the reaction
X is:

chemistry-General

parallel

The reaction :

The reaction :

chemistry-General

In the given figure of squares, 6 A’s should be written in such a manner that every row contains at least one 'A', it is possible in number of ways is-

In the given figure of squares, 6 A’s should be written in such a manner that every row contains at least one 'A', it is possible in number of ways is-

Oxidation of metals is generally a slow electrochemical reaction involving many steps. These steps involve
electron transfer reactions. A particular type of oxidation involve overall first order kinetics with respect to fraction of unoxidized metal surface thickness (1ñf) relative to the maximum thickness (T) of oxidized surface, when metal surface is exposed to air for a considerable period of time.
Rate law : $blank fraction numerator d f over denominator d t end fraction equals k left parenthesis 1 minus f right parenthesis$
where f = x / T,
x = thickness of the oxide film at time ' t' and T= thickness of the oxide film at t =h
For the oxidation of a particular metal, a graph is shown in the figure.

The exponential variation of f with t (h)is

Oxidation of metals is generally a slow electrochemical reaction involving many steps. These steps involve
electron transfer reactions. A particular type of oxidation involve overall first order kinetics with respect to fraction of unoxidized metal surface thickness (1ñf) relative to the maximum thickness (T) of oxidized surface, when metal surface is exposed to air for a considerable period of time.
Rate law : $blank fraction numerator d f over denominator d t end fraction equals k left parenthesis 1 minus f right parenthesis$
where f = x / T,
x = thickness of the oxide film at time ' t' and T= thickness of the oxide film at t =h
For the oxidation of a particular metal, a graph is shown in the figure.

The exponential variation of f with t (h)is

chemistry-General

parallel

Oxidation of metals is generally a slow electrochemical reaction involving many steps. These steps involve electron transfer reactions. A particular type of oxidation involve overall first order kinetics with respect to fraction of unoxidized metal surface thickness (1ñf) relative to the maximum thickness (T) of oxidized surface, when metal surface is exposed to air for a considerable period of time.
Rate law : $blank fraction numerator d f over denominator d t end fraction equals k left parenthesis 1 minus f right parenthesis$
where f = x / T,
x = thickness of the oxide film at time ' t' and T= thickness of the oxide film at t =
For the oxidation of a particular metal, a graph is shown in the figure.

The time taken for thickness to grow 50% of Tis

Oxidation of metals is generally a slow electrochemical reaction involving many steps. These steps involve electron transfer reactions. A particular type of oxidation involve overall first order kinetics with respect to fraction of unoxidized metal surface thickness (1ñf) relative to the maximum thickness (T) of oxidized surface, when metal surface is exposed to air for a considerable period of time.
Rate law : $blank fraction numerator d f over denominator d t end fraction equals k left parenthesis 1 minus f right parenthesis$
where f = x / T,
x = thickness of the oxide film at time ' t' and T= thickness of the oxide film at t =
For the oxidation of a particular metal, a graph is shown in the figure.

The time taken for thickness to grow 50% of Tis

chemistry-General

For a particular reaction at constant temperature , A(g) +2B(g) Following rate information were recorded:

On the basis of following observation give the answer of the following questions
What is the rate of reaction in the 4^th experiment?

For a particular reaction at constant temperature , A(g) +2B(g) Following rate information were recorded:

On the basis of following observation give the answer of the following questions
What is the rate of reaction in the 4^th experiment?

chemistry-General

For a particular reaction at constant temperature , A(g) +2B(g) Following rate information were recorded:

On the basis of following observation give the answer of the following questions
Which of the following is the correct rate law for the given reaction?

For a particular reaction at constant temperature , A(g) +2B(g) Following rate information were recorded:

On the basis of following observation give the answer of the following questions
Which of the following is the correct rate law for the given reaction?

chemistry-General

parallel

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n =  is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n =h is called binding energy of that state. Binding energy of ground state =E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
If ionisation energy is 'a' eV then ionisation potential is 'a' V. Using this information, find the ionisation potential of givenspecies.

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n =  is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n =h is called binding energy of that state. Binding energy of ground state =E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
If ionisation energy is 'a' eV then ionisation potential is 'a' V. Using this information, find the ionisation potential of givenspecies.

chemistry-General

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n = is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n = is called binding energy of that state. Binding energy of ground state = E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
What is the binding energy of e from second state in the given species?

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n = is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n = is called binding energy of that state. Binding energy of ground state = E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
What is the binding energy of e from second state in the given species?

chemistry-General

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n =  is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n = is called binding energy of that state. Binding energy of ground state = E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
Identify the hydrogen likespecies.

$E subscript n end subscript equals negative 13.6 fraction numerator Z to the power of 2 end exponent over denominator n to the power of 2 end exponent end fraction e V divided by text atom end text$ (Energy of electron in n^th orbit of hydrogen like species having atomic
I) Ground state:
Lowest energy state of any atom or ion is called ground state of the atom It is n = 1.
II) Excited State :
States of atom other than the ground state are called excited states:

III) Ionisation energy (E):
Minimum energy required to move an electron from ground state to n =  is called ionisation energy of the atom or ion.
i) Excitation Energy:
Energy required to move an electron from ground state of the atom to any other state of the atom is called
excitation energy of that state.
Excitation energy of 2ndstate = excitation energy of 1stexcited state = 1stexcitation energy = E₂ ñ E₁
ii) Binding EnergyëoríSeperationEnergy:
Energy required to move an electron from any state to n = is called binding energy of that state. Binding energy of ground state = E. of atom or on.
The third excitation energy of a hydrogen like species is 204 eV.
Identify the hydrogen likespecies.

chemistry-General

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