Three crates with various contents are pulled by a force Fpull=3615 N across a horizontal, frictionless roller‑conveyor system.
The group of boxes accelerates at 1.516 m/s2 to the right. Between each adjacent pair of boxes is a force meter that measures the magnitude of the tension in the connecting rope. Between the box of mass m1 and the box of mass m2, the force meter reads F12=1387 N. Between the box of mass m2 and the box of mass m3, the force meter reads F23=2304 N. Assume that the ropes and force meters are massless.
1 answer:
The question is incomplete. Here is the complete question.
Three crtaes with various contents are pulled by a force Fpull=3615N across a horizontal, frictionless roller-conveyor system.The group pf boxes accelerates at 1.516m/s2 to the right. Between each adjacent pair of boxes is a force meter that measures the magnitude of the tension in the connecting rope. Between the box of mass m1 and the box of mass m2, the force meter reads F12=1387N. Between the box of mass m2 and box of mass m3, the force meter reads F23=2304N. Assume that the ropes and force meters are massless.
(a) What is the total mass of the three boxes?
(b) What is the mass of each box?
Answer: (a) Total mass = 2384.5kg;
(b) m1 = 915kg;
m2 = 605kg;
m3 = 864.5kg;
Explanation: The image of the boxes is described in the picture below.
(a) The system is moving at a constant acceleration and with a force Fpull. Using Newton's 2nd Law:
Total mass of the system of boxes is 2384.5kg.
(b) For each mass, analyse each box and make them each a free-body diagram.
<u>For </u><u>:</u>
The only force acting On the box is force of tension between 1 and 2 and as all the system is moving at a same acceleration.
= 915kg
<u>For </u><u>:</u>
There are two forces acting on : tension caused by box 1 and tension caused by box 3. Positive referential is to the right (because it's the movement's direction), so force caused by 1 is opposing force caused by 3:
= 605kg
<u>For </u><u>:</u>
= 864.5kg
You might be interested in
Answer:
The initial speed of the soccer ball is 16.38 m/s
Explanation:
given;
vertical distance y = 2.44 m
horizontal distance x = 10.0 m
angle of projection θ = 25.0°
Initial velocity has two components, Vₓ and V
Vₓ = V cosθ
V = V
sinθ
The horizontal distance = x = Vₓt + ¹/₂ ˣ g ˣ t², but g =0
x = Vₓt = V cosθ *t
10 = V cos25 *t
10 = 0.906V*t
V*t = 10/0.906 = 11.038 m
The vertical distance (g = - g, because it upward motion against gravity)
y = V*t -¹/₂ ˣ g ˣ t²
2.44 = (V sinθ)t - ¹/₂ ˣ 9.8 ˣ t²
2.44 = (V*t)sinθ - ¹/₂ ˣ 9.8 ˣ t²
2.44 = (11.038)sin25° - 4.9t²
2.44 = (11.038)*0.4226 - 4.9t²
2.44 = 4.6647 - 4.9t²
4.9t² = 4.6647 - 2.44 = 2.2247
t² = 2.2247/4.9
t² = 0.454
t = √0.454
t = 0.674 s
Recall that V*t = 11.038 m
V*0.674 = 11.038 m, solve for V
V = 11.038/0.674
V = 16.38 m/s
Therefore, the initial speed of the soccer ball is 16.38 m/s
Answer:
use special filters on the telescope
Explanation:
Assuming you have access to a very high-grade telescope you would need to use special filters on the telescope that allows you to view the star's color spectrum. The color spectrum represents different levels of heat that a star is generating. This spectrum ranges from red to blue. Therefore in order to calculate the surface temperature, you would need to apply both a blue and red filter onto the telescope. Once you have these measurements you would need to compare them in order to pinpoint the correct variation of color which would give a close enough estimate of the surface temperature of the star.
