A proton, moving with a velocity of 3l, rest If the two protons have equal speeds...
A proton, moving with a velocity of 31, collides elastically with another proton that is initi al rest. If the two protons have equal speeds after the collision. 07:- Find the speed of each proton after the collision (A)0.71ms- (B) 1.4ms1 (C)2. 1ms-1 (D) 2.8ms (E)3.5ms- 08:-The direction of the velc ectors after the collision (A(S5,-35) (B)(30 6 (C(45.-45) (D)(60,-30) (E50-40)
A proton, moving with a velocity of 21, collides elastically with another proton that is initiallyt rest. If the two protons have equal speeds, after the collision. 7-Find the speed of each proton after the collision (A)0.71ms-1 (B) 1.4ms (C)2.1ms-1(D) 2.8ms- (E) 3.5ms Q8:- The direction of the velocity vect ors after the collision. (A)(55',-35) (B)(30,-60) (C)(45,-45) (D)(60',-30) (E)(50,-40)
A proton, moving with a velocity of 21, collides elastically with another proton that is initially rest. If the two protons have equal speeds, after the collision. Q7:- Find the speed of each proton after the collision (A)0.71ms-1 (B) 1.4ms (C) 2.1ms1 (D) 2.8ms1(E) 3.5ms-1 Q8:-The direction of the velocity vectors after the collision. (A)(SS,-35) (B)(30,-60) (C)(45',-45) (D)(60,-30) (E) (50',-40 )
A proton, moving with a velocity of 21, collides elastically with another proton that is initially rest. If the two protons have equal speeds, after the collision. Q7:- Find the speed of each proton after the collision (A)0.71ms-1 (B) 1.4ms (C) 2.1ms1 (D) 2.8ms1(E) 3.5ms-1 Q8:-The direction of the velocity vectors after the collision. (A)(SS,-35) (B)(30,-60) (C)(45',-45) (D)(60,-30) (E) (50',-40 )
A proton, moving with a velocity of 21, collides elastically with another proton that is initially rest. If the two protons have equal speeds, after the collision. Q7:- Find the speed of each proton after the collision (A)0.71ms-1 (B) 1.4ms (C) 2.1ms1 (D) 2.8ms1(E) 3.5ms-1 Q8:-The direction of the velocity vectors after the collision. (A)(SS,-35) (B)(30,-60) (C)(45',-45) (D)(60,-30) (E) (50',-40 )
A proton, moving with a velocity of 21, collides elastically with another proton that is initially rest. If the two protons have equal speeds, after the collision. Q7:- Find the speed of each proton after the collision (A)0.71ms-1 (B) 1.4ms (C) 2.1ms1 (D) 2.8ms1(E) 3.5ms-1 Q8:-The direction of the velocity vectors after the collision. (A)(SS,-35) (B)(30,-60) (C)(45',-45) (D)(60,-30) (E) (50',-40 )
proton, moving with a velocity of St, col ides elastically with another proton that is initiall y est. If the two protons have equal speeds a fter the collision. Q7:- Fir d the speed of each proton a fter the collision A).7ms1 (B) 1.4ms1 (2.1ms(D)2.8ms-1 (E) 3.5ms-1 Q8:- The direction of the velocity vectors after the collision. (A)(55,-35) (B)(30, -60) (C(45,-45) (D)(G0',-30) (E)(50.-40) ? ka and mi3 kg are loca ted in xy plane as
proton, moving with a velocity of St, col ides elastically with another proton that is initiall y est. If the two protons have equal speeds a fter the collision. Q7:- Fir d the speed of each proton a fter the collision A).7ms1 (B) 1.4ms1 (2.1ms(D)2.8ms-1 (E) 3.5ms-1 Q8:- The direction of the velocity vectors after the collision. (A)(55,-35) (B)(30, -60) (C(45,-45) (D)(G0',-30) (E)(50.-40) ? ka and mi3 kg are loca ted in xy plane as
proton, moving with a velocity of St, col ides elastically with another proton that is initiall y est. If th e two protons have equal speeds a fter the collision. Q7:- Fird the speed of each proton a ter the collision (A)0.71ms-1 (B) 1.4ms-1 (C) 2.11ns" (D) 2.8ms-1 (E) 3.5ms-1 Q8:- The direction of the velocity vectors after the collision. (A)S5-35) (B)(30.-60) (C(45-45) (D)(G0,-30) (E)(50;-40) . of mass-,5kg,m2.2 kg, and m3-3 kg are located in xy plane as 7 Q9:-...
1. /10 A proton (atomie mass = 1.0 u) with a speed of 500 m/s collides with another target) proton at rest. The original proton is scattered 60° from its initial direction while the target proton is scattered -30° from that direction. (a) What are the speeds of both protons after the collision? (b) Is the collision elastic? (Note: An elastic collision means that the total kinetic energy of the system is the same before and after the collision.)