A 212-kg projectile, fired with a speed of 133 m/s at a 63.0 angle, breaks into...
Question 10 A 224-kg projectile, fired with a speed of 72 m/s at a 60° angle, breaks into three pieces of equal mass at the highest point of its arc (where its velocity is horizontal). Two of the fragments move with the same speed right after the explosion as the entire projectile had just before the explosion; one of these moves vertically downward and the other horizontally Determine the velocity, as a Cartesian vector, of the third fragment immediately after...
Question 10: A 224-kg projectile, fired with a speed of {variables.Q10_V} m/s at a 60° angle, breaks into three pieces of equal mass at the highest point of its arc (where its velocity is horizontal). Two of the fragments move with the same speed right after the explosion as the entire projectile had just before the explosion; one of these moves vertically downward and the other horizontally. The values for variables.Q10_V will be defined within the question and are unique...
W chapter 9 Problem 9.21 Problem 9.21 A207-kg projectile, fired with a speed of 145 m/s at a 62.0 o angle, breaks into three pieces of equal mass at the highest point of its arc (where its velocity is horizontal). Two of the fragments move with the same speed right after the explosion as the entire projectile had just before the explosion, one of these moves vertically downward and the other horizontally
A projectile is fired with Aprojectile is fired with an initial speed of 37.9 m/s at an angle of 42.1 above the horizontal on a long flat firing range. Part B Determine the total time in the air. Express your answer using three significant figures and include the appropriate units. HA ? trotal 5.081 Submit Previous Answers Request Answer xIncorrect; Try Again; 8 attempts remaining Review your calculations; you may have made a rounding error or used the wrong number...
A 1600 kg weather rocket accelerates upward at 10 m/s. It explodes 2.2 s after iftoft and breaks into two fragments, one twice as massive as the other. Photos reveal that the lighter fragment traveled straight up and reached a maximum height of 520 m. Part A What was the speed of the heavier fragment just after the explosion? Express your answer using two significant figures. 190 AED Submit Previous Answers Request Answer
A 26.0-kg shell is fired from a gun with a muzzle velocity 170.0 m/s at 68.0o above the horizontal. At the top of the trajectory, the shell explodes into two fragments of equal mass. One fragment, whose speed immediately after the explosion is zero, falls vertically. What is the horizontal speed of the other fragment?
Review I Constants Periodic Table A 1600 kg weather rocket accelerates upward at 10 m/s2. It explodes 1.9 s after liftoff and breaks into two fragments, one twice as massive as the other. Photos reveal that the lighter fragment traveled straight up and reached a maximum height Part A of 520 m What was the speed of the heavier fragment just after the explosion? Express your answer using two significant figures. nα ΑΣφ ? m/s Request Answer Submit Part B...
Determine the total time in the ar Constants A projectile is fired with an initial speed of 66 3 m/s at an angle of 37 6 ° above the horizontal on a long total O You have already submitted this answer. Enter a new answer No credit lost. Try again Submit ▼ Part C Determine the total horizontal distance covered (that is, the range) dyotal Constants Part D A projectile is fired with an initial speed of 66.3 m/s at...
(hrw8c9p15) A shell is fired from a gun with a muzzle velocity of 23 m/s, at an angle of 60° with the horizontal. At the top of the trajectory, the shell explodes into two fragments of equal mass (see the figure). One fragment, whose speed immediately after the explosion is zero, falls vertically. How far from the gun does the other fragment land, assuming that the terrain is level and that the air drag is negligible
A shell is shot with an initial velocity of 25 m/s, at an angle of = 57° with the horizontal. At the top of the trajectory, the shell explodes into two fragments of equal mass (see the figure). One fragment, whose speed immediately after the explosion is zero, falls vertically. How far from the gun does the other fragment land, assuming that the terrain is level and that air drag is negligible?