A44.0-g block of ice at -15.0°c is dropped into a calorimeter (of negligible heat capacity) containing 100-g of water at 5.0°c. when equilibrium is reached, how much of the ice will have melted? the specific heat of ice is 2090 j/kg ∙ k, that of water is 4186 j/kg ∙ k, and the latent heat of fusion of water is 33.5 × 104 j/kg.

1 the 4 is sig

the total distance that martina travels that day is

(distance from home to mom's office) plus (distance from mom's office to school)

plus (distance from school to library) plus (distance from library to friend's house)

plus (distance from friend's house to martina's house).

(we don't know what any of these distance actually is.)

note: the given question is incomplete.

complete question is given below.

which is an example of kinetic energy?

a. the energy stored in ethanol  

b. a hockey puck sliding across the ice  

c. a compressed spring  

d. a ball sitting at the top of a ramp

solution: the kinetic energy is the energy posses by the virtue of the motion of the object.

in the given options, a, c and d are the example of potential energy because it is the energy posses by the virtue of the rest of the object. but option b has the kinetic energy as the object is in motion.

hence, a hockey puck sliding across the ice   is the apex example of kinetic energy.

so, the option (b) a hockey puck sliding across the ice   is the correct option.