Figure +x Origin, x=0 Ho ground Highest ¡No la 2 of 2 Hitting ground In (Figure 2)a stone is thrown upward with an initial velocity vo = 9.0 m/s from a height of Ho = 6.6 m above the ground. The magnitude of the gravitational acceleration is 9.8m/s2. Take UPWARD as positive direction, Part E - Figure 2 Case 2: What is the maximum height above the ground? Keep 2 digits after the decimal point. Part F - Figure 2: after the stone leaves the hand that throws it upward, how long (in seconds) does it take the stone to hit the ground? Keep 3 digits after the decimal point. Part G - Figure 2: As practice, enter the negative solution to the quadratic equation here. Keep 3 digits after the decimal point. Part H - Figure 2: As practice, calculate the time from the highest point to hitting the ground. Keep 3 digits after the decimal point. ▶ Part I - Figure 2: Find the velocity of the stone right before hitting the ground with a proper sign.

Please Asap

Transcribed Image Text:

Figure Origin, xo=0 Ho ground Highest ¡No la 2 of 2 Hitting ground In (Figure 2)a stone is thrown upward with an initial velocity vo = 9.0 m/s from a height of Ho = 6.6 m above the ground. The magnitude of the gravitational acceleration is 9.8m/s². Take UPWARD as positive direction, ▶ Part E - Figure 2 Case 2: What is the maximum height above the ground? Keep 2 digits after the decimal point. Part F - Figure 2: after the stone leaves the hand that throws it upward, how long (in seconds) does it take the stone to hit the ground? Keep 3 digits after the decimal point. ▶ Part G - Figure 2: As practice, enter the negative solution to the quadratic equation here. Keep 3 digits after the decimal point. ▶ Part H - Figure 2: As practice, calculate the time from the highest point to hitting the ground. Keep 3 digits after the decimal point. Part 1 - Figure 2: Find the velocity of the stone right before hitting the ground with a proper sign. Provide Feedback Next >