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Calculate the binding energy for nucleon of 12 6 C nucleus, if mass of proton mp = 1.0078 u, mass of neutron mn = 1.0087 u, mass of C12, mc = 12.0000u; and 1 u =931.4 MeV.
11
Sep
Calculate the binding energy for nucleon of 12 6 C nucleus, if mass of proton mp = 1.0078 u, mass of neutron mn = 1.0087 u, mass of C12, mc = 12.0000u; and 1 u =931.4 MeV. Calculate the binding energy for nucleon of 12 6 C nucleus if mass of prroton mp = 1.0078 [...]
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Tags: Calculate the binding energy for nucleon of 12 6 C nucleus , if mass of prroton mp = 1.0078 u , mass of C12 , mass of neutron mn = 1.0087 u , mc = 12.0000u; and 1 u =931.4 MeV. ,
The nucleus of the deuterium atom, called the deuteron, consists of a proton and a neutron. Calculate the deuteron’s binding energy, given atomic mass , i.e., the mass of a deuterium nucleus plus
11
Sep
The nucleus of the deuterium atom, called the deuteron, consists of a proton and a neutron. Calculate the deuteron’s binding energy, given atomic mass , i.e., the mass of a deuterium nucleus plus called the deuteron consists of a proton and a neutron. Calculate the deuteron's binding energy given atomic mass i.e the mass of [...]
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Tags: called the deuteron , consists of a proton and a neutron. Calculate the deuteron's binding energy , given atomic mass , i.e , the mass of a deuterium nucleus plus , The nucleus of the deuterium atom ,
The atomic mass of 4 2 He is 4.0026 u and the atomic mass of 1 1 H is 1.0078 u. Using atomic mass units instead of kilograms, obtain the binding energy of the 4 2 He nucleus.
11
Sep
The atomic mass of 4 2 He is 4.0026 u and the atomic mass of 1 1 H is 1.0078 u. Using atomic mass units instead of kilograms, obtain the binding energy of the 4 2 He nucleus. obtain the binding energy of the 4 2 He nucleus. The atomic mass of 4 2 He [...]
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Tags: obtain the binding energy of the 4 2 He nucleus. , The atomic mass of 4 2 He is 4.0026 u and the atomic mass of 1 1 H is 1.0078 u. Using atomic mass units instead of kilograms ,
The most abundant isotope of helium has a 4 2 H nucleus whose mass is 6.6447 * 10^-27 kg. For this nucleus, find (a) the mass defect and (b) the binding energy.
11
Sep
The most abundant isotope of helium has a 4 2 H nucleus whose mass is 6.6447 * 10^-27 kg. For this nucleus, find (a) the mass defect and (b) the binding energy. find (a) the mass defect and (b) the binding energy. The most abundant isotope of helium has a 4 2 H nucleus whose [...]
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Tags: find (a) the mass defect and (b) the binding energy. , The most abundant isotope of helium has a 4 2 H nucleus whose mass is 6.6447 * 10^-27 kg. For this nucleus ,
Calculate the electric potential energy of interaction due to the electric repulsion between two nuclei of 12C when they touch each other at the surface .
11
Sep
Calculate the electric potential energy of interaction due to the electric repulsion between two nuclei of 12C when they touch each other at the surface . Calculate the electric potential energy of interaction due to the electric repulsion between two nuclei of 12C when they touch each other at the surface . September 11, 2020 [...]
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Tags: Calculate the electric potential energy of interaction due to the electric repulsion between two nuclei of 12C when they touch each other at the surface . ,
The most common kind of iron nucleus has a mass number of 56. Find the radius, approximate mass, and approximate density of the nucleus.
11
Sep
The most common kind of iron nucleus has a mass number of 56. Find the radius, approximate mass, and approximate density of the nucleus. and approximate density of the nucleus. approximate mass The most common kind of iron nucleus has a mass number of 56. Find the radius September 11, 2020 Category: Uncategorised (JEE Advanced [...]
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Tags: and approximate density of the nucleus. , approximate mass , The most common kind of iron nucleus has a mass number of 56. Find the radius ,
Calculate the radius of 70Ge.
11
Sep
Calculate the radius of 70Ge. Calculate the radius of 70Ge. September 11, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Calculate the radius of 70Ge. ,
(a) Find an approximate expression for the mass of a nucleus of mass number A. (b) Find an expression for the volume of this nucleus in terms of the mass number. (c) Find a numerical value for its density.
11
Sep
(a) Find an approximate expression for the mass of a nucleus of mass number A. (b) Find an expression for the volume of this nucleus in terms of the mass number. (c) Find a numerical value for its density. An electron in hydrogen-like atom makes a transition from nth orbit and emits radiation corresponding to [...]
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Tags: An electron in hydrogen-like atom makes a transition from nth orbit and emits radiation corresponding to Lyman series. If de-Broglie wavelength of electron in nth orbit is equal to the wavelength ,
How many electrons, protons, and neutrons are there in 12 g of 6C 12 and in 14 g of 6C 14?
11
Sep
How many electrons, protons, and neutrons are there in 12 g of 6C 12 and in 14 g of 6C 14? and neutrons are there in 12 g of 6C 12 and in 14 g of 6C 14? How many electrons protons September 11, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
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Tags: and neutrons are there in 12 g of 6C 12 and in 14 g of 6C 14? , How many electrons , protons ,
An X-ray tube operated at 40 kV emits a continuous X-ray spectrum with a short wavelength limit lemda min = 0.310 A. Calculate Planck’s constant.
11
Sep
An X-ray tube operated at 40 kV emits a continuous X-ray spectrum with a short wavelength limit lemda min = 0.310 A. Calculate Planck’s constant. An X-ray tube operated at 40 kV emits a continuous X-ray spectrum with a short wavelength limit lemda min = 0.310 A. Calculate Planck's constant. September 11, 2020 Category: Uncategorised [...]
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Tags: An X-ray tube operated at 40 kV emits a continuous X-ray spectrum with a short wavelength limit lemda min = 0.310 A. Calculate Planck's constant. ,