Answer:
A
Explanation
i think its a not 100% sure though.
Answer:
Σ Fₓ = mg ( μ cos θ - sin θ) =0
Explanation:
To solve the problem of an inclined plane, we must use Newton's second law.
In these problems the selected reference system is where the x-axis is parallel to the plane and the y-axis is perpendicular to the plane.
The force that exists is the weight, the normal and the friction force, in our reference system the only one that we must break down the weight, let's use trigonometry.
sin θ = Wx / W
cos θ = / W
Where the angle of the plane is the same angle of the y-axis
Wₓ = W sin θ
= W cos θ
Let's write the equations, just before starting the movement
Y Axis
N - W_{y} = 0
N = W cos θ
X axis
fr - Wₓ = 0
The equation for the force of friction is
fr = μ N
we replace
μ N = W sin θ
μ W cos θ = W sin θ
μ = tan θ
The answer is
∑ Fₓ = μ mg cos θ - mg sin θ= 0
Σ Fₓ = mg ( μ cos θ - sin θ) =0
Answer:
1.65 × 10⁻⁴ m
Explanation:
Displacement amplitude = A = Δ P / 2πf ρv
= ( 3.92 × 10³) / 2π (9.2 × 10³) (1.20)(343)
= 1.65 × 10⁻⁴ m
Displacement amplitude is the distance traveled by the wave particle from its equilibrium position.
Answer:
the glove could be heavy so slowing down his power
Explanation:
JUST GUESSED
Answer:
m = 35 g
Explanation:
The specific heat of a material can be calculated by the following formula:
where,
C = Specific Heat of Wax = 220 J/g
Q = Amount of Heat Supplied by the Heater = 7700 J
m = mass of wax melted = ?
Therefore,
<u>m = 35 g </u>