 
									
								
									CBSE-GUESS PAPER -2011 -Class XII- Subject
									
... Two parallel plates have equal and opposite charge. When the space between them is evacuated, the electric field between the plates is 2  105 V/m. When the space is filled with dielectric, the electric field becomes 1  105 V/m. The dielectric constant of the dielectric material [MP PET 1989] (a) 1 ...
                        	... Two parallel plates have equal and opposite charge. When the space between them is evacuated, the electric field between the plates is 2  105 V/m. When the space is filled with dielectric, the electric field becomes 1  105 V/m. The dielectric constant of the dielectric material [MP PET 1989] (a) 1 ...
									21_InstructorSolutionsWin
									
... SET UP: Coulomb’s law gives the force, and Newton’s second law gives the acceleration: a = F/m = (1/ 4 P0 ) (e2/r2)/m. EXECUTE: (a) a = (9.00  109 N  m2/C2)(1.60  10-19 C)2/[(0.00250 m)2(1.67  10-27 kg)] = 2.21  104 m/s2. (b) The graphs are sketched in Figure 21.11. EVALUATE: The electrical fo ...
                        	... SET UP: Coulomb’s law gives the force, and Newton’s second law gives the acceleration: a = F/m = (1/ 4 P0 ) (e2/r2)/m. EXECUTE: (a) a = (9.00  109 N  m2/C2)(1.60  10-19 C)2/[(0.00250 m)2(1.67  10-27 kg)] = 2.21  104 m/s2. (b) The graphs are sketched in Figure 21.11. EVALUATE: The electrical fo ...
									Chapter 26
									
... Voltage-gated channels in nerves and muscles open due to a stimulus detected by a sensor Eg: in muscles there are 50-500 Na channels per mm2 on membrane surface that can be opened by a change in electric potential of membrane for ~1 ms during which about 103 Na+ ions flow into the cell through each ...
                        	... Voltage-gated channels in nerves and muscles open due to a stimulus detected by a sensor Eg: in muscles there are 50-500 Na channels per mm2 on membrane surface that can be opened by a change in electric potential of membrane for ~1 ms during which about 103 Na+ ions flow into the cell through each ...
									UNIT 6
									
... cobalt. Like paramagnetic atoms, the electrons in a ferromagnetic atom do not cancel each other’s magnetic fields completely. Each atom is therefore a tiny magnet. The difference is that individual atoms of ferromagnetic materials do not act randomly like atoms in paramagnetic materials. Instead, at ...
                        	... cobalt. Like paramagnetic atoms, the electrons in a ferromagnetic atom do not cancel each other’s magnetic fields completely. Each atom is therefore a tiny magnet. The difference is that individual atoms of ferromagnetic materials do not act randomly like atoms in paramagnetic materials. Instead, at ...
 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									![arXiv:math/0304461v1 [math.DS] 28 Apr 2003](http://s1.studyres.com/store/data/017912608_1-01ea405b40d94f16985213ba7f480945-300x300.png) 
									 
									 
									 
									 
									 
									