B X-rays were discovered on November 8, 1895 , by Dr. William Conrad Roentgen. He was experimenting with electron beams in a gas discharge tube.
Shift-II
Dual nature of radiation and Matter
142604
The penetrating power of X-rays can be increased by
1 increasing the current in the heating filament
2 decreasing the current in the heating filament
3 increasing the potential difference between the cathode and anode
4 decreasing the potential difference between the cathode and anode
Explanation:
C X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. When we increasing the potential difference between anode and cathode then the energy of the striking electron increases.
CG PET- 2013
Dual nature of radiation and Matter
142608
X- rays beam can be deflected
1 by an electric field
2 by magnetic field
3 when both electric and magnetic field are present
4 neither by an electric field nor by magnetic field
Explanation:
D X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. X-rays do not carry any charge. As we know only charge particle deflected by the electric and magnetic field. Hence, X-rays beam can not be deflected by an electric field and magnetic field.
CG PET- 2012
Dual nature of radiation and Matter
142614
Characteristic \(X\)-rays are produced due to
1 transfer of momentum in collision of electrons with target atoms
2 transition of electrons from higher to lower electronic orbits of an atom
3 heating of the target
4 transfer of energy in collision of electrons with atoms in the target.
Explanation:
B Characteristic X-rays are produced by ionization of inner shell electron. The inner shell electron is ejected and an outer shell electron replaces it. This energy difference is released as an X-rays.
B X-rays were discovered on November 8, 1895 , by Dr. William Conrad Roentgen. He was experimenting with electron beams in a gas discharge tube.
Shift-II
Dual nature of radiation and Matter
142604
The penetrating power of X-rays can be increased by
1 increasing the current in the heating filament
2 decreasing the current in the heating filament
3 increasing the potential difference between the cathode and anode
4 decreasing the potential difference between the cathode and anode
Explanation:
C X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. When we increasing the potential difference between anode and cathode then the energy of the striking electron increases.
CG PET- 2013
Dual nature of radiation and Matter
142608
X- rays beam can be deflected
1 by an electric field
2 by magnetic field
3 when both electric and magnetic field are present
4 neither by an electric field nor by magnetic field
Explanation:
D X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. X-rays do not carry any charge. As we know only charge particle deflected by the electric and magnetic field. Hence, X-rays beam can not be deflected by an electric field and magnetic field.
CG PET- 2012
Dual nature of radiation and Matter
142614
Characteristic \(X\)-rays are produced due to
1 transfer of momentum in collision of electrons with target atoms
2 transition of electrons from higher to lower electronic orbits of an atom
3 heating of the target
4 transfer of energy in collision of electrons with atoms in the target.
Explanation:
B Characteristic X-rays are produced by ionization of inner shell electron. The inner shell electron is ejected and an outer shell electron replaces it. This energy difference is released as an X-rays.
B X-rays were discovered on November 8, 1895 , by Dr. William Conrad Roentgen. He was experimenting with electron beams in a gas discharge tube.
Shift-II
Dual nature of radiation and Matter
142604
The penetrating power of X-rays can be increased by
1 increasing the current in the heating filament
2 decreasing the current in the heating filament
3 increasing the potential difference between the cathode and anode
4 decreasing the potential difference between the cathode and anode
Explanation:
C X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. When we increasing the potential difference between anode and cathode then the energy of the striking electron increases.
CG PET- 2013
Dual nature of radiation and Matter
142608
X- rays beam can be deflected
1 by an electric field
2 by magnetic field
3 when both electric and magnetic field are present
4 neither by an electric field nor by magnetic field
Explanation:
D X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. X-rays do not carry any charge. As we know only charge particle deflected by the electric and magnetic field. Hence, X-rays beam can not be deflected by an electric field and magnetic field.
CG PET- 2012
Dual nature of radiation and Matter
142614
Characteristic \(X\)-rays are produced due to
1 transfer of momentum in collision of electrons with target atoms
2 transition of electrons from higher to lower electronic orbits of an atom
3 heating of the target
4 transfer of energy in collision of electrons with atoms in the target.
Explanation:
B Characteristic X-rays are produced by ionization of inner shell electron. The inner shell electron is ejected and an outer shell electron replaces it. This energy difference is released as an X-rays.
B X-rays were discovered on November 8, 1895 , by Dr. William Conrad Roentgen. He was experimenting with electron beams in a gas discharge tube.
Shift-II
Dual nature of radiation and Matter
142604
The penetrating power of X-rays can be increased by
1 increasing the current in the heating filament
2 decreasing the current in the heating filament
3 increasing the potential difference between the cathode and anode
4 decreasing the potential difference between the cathode and anode
Explanation:
C X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. When we increasing the potential difference between anode and cathode then the energy of the striking electron increases.
CG PET- 2013
Dual nature of radiation and Matter
142608
X- rays beam can be deflected
1 by an electric field
2 by magnetic field
3 when both electric and magnetic field are present
4 neither by an electric field nor by magnetic field
Explanation:
D X-rays are the electromagnetic wave of very high energy and very short wavelength which has capacity to penetrate the opaque body. X-rays do not carry any charge. As we know only charge particle deflected by the electric and magnetic field. Hence, X-rays beam can not be deflected by an electric field and magnetic field.
CG PET- 2012
Dual nature of radiation and Matter
142614
Characteristic \(X\)-rays are produced due to
1 transfer of momentum in collision of electrons with target atoms
2 transition of electrons from higher to lower electronic orbits of an atom
3 heating of the target
4 transfer of energy in collision of electrons with atoms in the target.
Explanation:
B Characteristic X-rays are produced by ionization of inner shell electron. The inner shell electron is ejected and an outer shell electron replaces it. This energy difference is released as an X-rays.
