A proton, moving with a velocity of 21, collides elastically with another proton that is initially...
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 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 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)
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
A proton, moving with a velocity of viî, collides elastically with another proton that is initially at rest. Assuming that after the collision the speed of the initially moving proton is 1.40 times the speed of the proton initially at rest, find the following. (a) the speed of each proton after the collision in terms of vi initially moving proton? xv_i initially at rest proton? (b) the direction of the velocity vectors after the collision (assume that the initially moving...
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:-...
A projectile proton with a speed of 1100 m/s collides elastically with a target proton initially at rest. The two protons then move along perpendicular paths, with the projectile path at 78° from the original direction. After the collision, what are the speeds of (a) the target proton and (b) the projectile proton?