A 0.26-kgkg rock is thrown vertically upward from the top of a cliff that is 32 mm high. When it hits the ground at the base of the cliff, the rock has a speed of 33 m/sm/s .

a. Assuming that air resistance can be ignored, what is the initial speed of the rock?
b. What is the greatest height of the rock as measured from the base of the cliff?

a. u = 21. 50 m/s  

Maximum height from the base of the cliff = 32 + 23.56 = 55.56  m

Explanation:

mass of rock = 0.26 kg

Height = 32 m (the cliff cannot be 32 mm it should be 32 m)

initial velocity (u) = ?

final velocity(v) = 33 m/s

Initial mechanical energy is equal to final mechanical energy. The object undergoes potential and kinetic energy.

initial mechanical energy = final mechanical energy

mgh + 1/2mu² = mgh + 1/2mv²

mgh + 1/2mu² = 0 + 1/2mv²

u² = v² -2gh

u = √v² -2gh

u = √1089 - 2 × 9.81 × 32

u = √1089 - 627.84

u = √461.16

u = 21.4746362018

u = 21. 50 m/s  

b .The greatest maximum height

1/2 mu² = mgh

1/2u² = gh

h = u²/2g

h = (21.50)²/2 × 9.81

h = 462.25 /19.62

h = 23.5601427115  m

Maximum height from the base of the cliff = 32 + 23.56 = 55.56  m

kepler used the data from tycho blahe (his mentor) to construct the laws of planetary motion.

explanation:

considering the bohr theory, the type of connection that requires the transfer the answer conuldn't be right