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General
Easy
Question
The mass of nucleus is less than the sum of the mases of (A - Z) number of neutrons and Z number of protons in the nucleus The energy equivalent to the corresponding mass difference is known as the binding energy of the nucleus A heavy nucleus of mass M can break into two light nuclei of mass m1 and m2 M only if Also two light nuclei of mass m3 and m4 can undergo complete fusion and form a heavy nucleus of mass M “only if The masses of some netural atoms are given in the table below.
The kinetic energy (in keV) of the alpha particle, when the nucleus at rest undergo alpha decay, is
- 5319
- 5422
- 5707
- 5818
The correct answer is: 5319
Related Questions to study
physics-
The mass of nucleus is less than the sum of the mases of (A - Z) number of neutrons and Z number of protons in the nucleus The energy equivalent to the corresponding mass difference is known as the binding energy of the nucleus A heavy nucleus of mass M can break into two light nuclei of mass m1 and m2 M only if Also two light nuclei of mass m3 and m4 can undergo complete fusion and form a heavy nucleus of mass M “only if The masses of some netrural atoms are given in the table below.
The correct statement is
The mass of nucleus is less than the sum of the mases of (A - Z) number of neutrons and Z number of protons in the nucleus The energy equivalent to the corresponding mass difference is known as the binding energy of the nucleus A heavy nucleus of mass M can break into two light nuclei of mass m1 and m2 M only if Also two light nuclei of mass m3 and m4 can undergo complete fusion and form a heavy nucleus of mass M “only if The masses of some netrural atoms are given in the table below.
The correct statement is
physics-General
physics-
From the figure describing photoelectric effect we may infer correctly that
From the figure describing photoelectric effect we may infer correctly that
physics-General
physics-
Figure represents a graph of kinetic energy of most energetic photoelectrons, Kmax (in eV), and frequency (v) for a metal used as cathode in photoelectric experiment. The threshold frequency of light for the photoelectric emission from the metal is
Figure represents a graph of kinetic energy of most energetic photoelectrons, Kmax (in eV), and frequency (v) for a metal used as cathode in photoelectric experiment. The threshold frequency of light for the photoelectric emission from the metal is
physics-General
chemistry-
OxidationstateofFeincompound(F)is:
OxidationstateofFeincompound(F)is:
chemistry-General
chemistry-
Compound(A)is:
Compound(A)is:
chemistry-General
chemistry-
An aqueous solution of an inorganic compound (X)givesthe followingreactions:
i) Withan aqueous solutionof ,aprecipitateinsolubleindiluteHClisobtained
ii) Addition of excess of KI gives a brown precipitate which turns white on addition of excess hypo solution
iii) With an aqueous solution of potassium ferrocyanide a chocolate colored ppt is obtained.
Identify X-
An aqueous solution of an inorganic compound (X)givesthe followingreactions:
i) Withan aqueous solutionof ,aprecipitateinsolubleindiluteHClisobtained
ii) Addition of excess of KI gives a brown precipitate which turns white on addition of excess hypo solution
iii) With an aqueous solution of potassium ferrocyanide a chocolate colored ppt is obtained.
Identify X-
chemistry-General
chemistry-
Findout (F) :
Findout (F) :
chemistry-General
chemistry-
Findout(E):
Findout(E):
chemistry-General
chemistry-
Find the anion(s):
Find the anion(s):
chemistry-General
physics-
In a photoelectric experiment the relation between applied potential difference between cathode and anode V and the photoelectric current I was found to be shown in graph below. If Planck’s constant , the frequency of incident radiation would be nearly
In a photoelectric experiment the relation between applied potential difference between cathode and anode V and the photoelectric current I was found to be shown in graph below. If Planck’s constant , the frequency of incident radiation would be nearly
physics-General
physics-
A physics lab is designed to study the transfer of electrical energy from one circuit to another by means of a magnetic field using simple transformers Each transformer has two coils of wire electrically insulated from each other but wound around a common core of ferromagnetic material The two wires are close together but do not touch each other.
The primary coil is connected to a source of alternating (AC) current The secondary coil is connected to a resistor such as a light bulb The AC source produces an oscillating voltage and current in the primary coil that produces an oscillating magnetic field in the core material This in turn induces an oscillating voltage and AC current in the secondary coil Student collected the following data comparing the number of turns per coil (N), the voltage (V) and the current (I) in the coils of three transformers
The primary coil of a transformer has 100 turns and is connected to a 120V AC source How many turns are in the secondary coil if there is a 2400 V across it
A physics lab is designed to study the transfer of electrical energy from one circuit to another by means of a magnetic field using simple transformers Each transformer has two coils of wire electrically insulated from each other but wound around a common core of ferromagnetic material The two wires are close together but do not touch each other.
The primary coil is connected to a source of alternating (AC) current The secondary coil is connected to a resistor such as a light bulb The AC source produces an oscillating voltage and current in the primary coil that produces an oscillating magnetic field in the core material This in turn induces an oscillating voltage and AC current in the secondary coil Student collected the following data comparing the number of turns per coil (N), the voltage (V) and the current (I) in the coils of three transformers
The primary coil of a transformer has 100 turns and is connected to a 120V AC source How many turns are in the secondary coil if there is a 2400 V across it
physics-General
physics-
At resonance, VL and VC are both very much greater than the applied potential, V itself The quality factor for an LCR circuit in resonance is given by In practice has been achieved
At resonance, the capacitor has been adjusted for
At resonance, VL and VC are both very much greater than the applied potential, V itself The quality factor for an LCR circuit in resonance is given by In practice has been achieved
At resonance, the capacitor has been adjusted for
physics-General
physics-
In the circuit diagram shown, The effective current through the source is
In the circuit diagram shown, The effective current through the source is
physics-General
physics-
For the circuit shown in the figure the rms value of voltages across R and coil are E1 and E2 , respectively
The power (thermal) developed across the coil is
For the circuit shown in the figure the rms value of voltages across R and coil are E1 and E2 , respectively
The power (thermal) developed across the coil is
physics-General
physics-
The potential difference across a 2H inductor as a function of time is shown in figure At time t = 0, current is zero Current t = 2 second is
The potential difference across a 2H inductor as a function of time is shown in figure At time t = 0, current is zero Current t = 2 second is
physics-General