Answer:
The larger constant goes to the spring with the largest F/x ratio, this is by measuring a larger Force or by displacing less from the equilibrium position
Explanation:
Using Hooke's Law we have that for each spring the following relations is fulfilled:
Where F is the restoring force (opposite to displacement ergo the negative sign), k is the constant and x is the displacement.
All we need to do is to compare the following:
The larger constant goes to the spring with the largest F/x ratio, this is by measuring a larger Force or by displacing less from the equilibrium position
If you have numerical data we can run the calculations
The radius of each jawbreaker is approximately 0.68 cm.
<h3>Volume of a sphere;</h3>
where
r = radius
Therefore,
23 g = 32.3 cm³
0.94 g = ?
cross multiply
volume of a single jawbreaker = 32.3 × 0.94 / 23 = 30.362 / 23 = 1.32 cm³
Therefore,
volume of each jawbreaker = 4 /3 πr³
1.32 = 4 / 3 × 3.14 × r³
r³ = 1.32 /4.18666666667
r³ = 0.31533683707
r = ∛0.31533683707
r = 0.680651651 = 0.68
Therefore, the radius of each jawbreaker is approximately 0.68 cm.
learn more on radius here: brainly.com/question/19172427
Answer:
2400 J
Explanation:
Latent heat: This is also called hidden heat, it is the heat that is not detectable by the thermometer.
From the question,
Q = cm.................. Equation 1
Where Q = Energy, c = specific latent heat of the liquid, m = mass of the liquid.
Given: c = 4000 J/kg, m = 600 g =( 600/1000) kg = 0.6 kg
Substitute these values into equation 1
Q = 4000×0.6
Q = 2400 J
Hence the energy required is 2400 J