Yes it is. Both sides have the dimensions of [time].
I believe the answer is c but I’m not 100% sure
Answer:
v = √k/m x
Explanation:
We can solve this exercise using the energy conservation relationships
starting point. Fully compressed spring
Em₀ = = ½ k x²
final point. Cart after leaving the spring
= K = ½ m v²
Em₀ = Em_{f}
½ k x² = ½ m v²
v = √k/m x
Answer:
(A) t_H = Vo×Sin (theta)/g
(B) t,_R = (2VoSin(theta))/g
(C) H = Vo²Sin²(theta) / 2g
(D) Range = Vo²Sin(2×theta) / g.
Explanation:
The detailed solution to the problem can be found in the attachment below
Answer:
walking to school
Explanation:
Driving a car to school
, and taking the bus to school both take up energy, unlike walking to school.
unless ur talking about energy, counting energy you produce and use to complete things, then it would be the 3rd one, taking the bus to school.