what degree is the two angles created by a hanging mass?
An unknown mass is hanging by a cable which is held by two ropes
anchored to the roof at angles 60° and 40° that keep the mass at
rest as shown in the figure. If the maximum tension either of the
ropes can hold without breaking is 5000 N, determine the maximum
value of the hanging mass that these ropes can safely support. You
may consider the ropes and cable to be massless
60 40° An unknown mass is hanging...
60° 40° An unknown mass is hanging by a cable which is held by two ropes anchored to the roof at angles 60° and 40° that keep the mass at rest as shown in the figure. If the maximum tension either of the ropes can hold without breaking is 5000 N, determine the maximum value of the hanging mass that these ropes can safely support. You may consider the ropes and cable to be massless.
You have a mass of 61 kg and are on a 52-degree slope hanging on to a cord with a breaking strength of 184 newtons. A. What must be the coefficient of static friction to 2 decimal places between you and the surface for you to be saved from the fire? B. If the coefficient of static friction is zero, to the nearest tenth of a degree, what would the incline angle have to be in order for the cord...
A chandelier is hung using two guidewires that form 45 degree angles with the ceiling. If the weight of the chandelier is 120 N, what is the tension in the wires? If the ceiling is in a huge elevator that accelerates downward at 3m/s^2, what will the tension become?
What is mass m?
The figure shows two masses hanging from a steel wire. The mass of the wire is 57.0 g. A wave pulse travels along the wire from point 1 to point 2 in 27.0 ms 2.0 m 40N 2.0 m 2イ400 4.0 nm 71 772
Solve for the remaining angles and side of the two triangles that can be created. Round to the nearest hundredth: C = 35, a = 8,0 = 5 Answer How to enter your answer Keypad Keyboard Shortcuts Triangle 1: (where angle A is acute): Triangle 2: (where angle A is obtuse): o 0 A = A = B = 0 o B= b= b=
The Atwood's machine has two hanging masses. The mass of the A is 3m and the mass B is 2m . The pulley C can be considered as a solid cylinder with mass m and radius R . There is no slipping between the cord and the surface of the wheel. Here, m= 2.00 kg, 2m= 4.00 kg, and 3m= 6.00 kg. (Figure 1) Part A Part complete What is the speed of mass A after it falls 2.10 m down? v(f)=…..m/s
1.)What is the difference between a degree and a radian, and why are angles in physics (when describing rotational motion) measured in radians ? 2.) Is angular speed the same as linear speed, and if not what is the difference ?
Find the next two positive and two negative angles that are coterminal with the given quadrantal angle. A = -630° The two positive angles are (Use a comma to separate answers as needed. Do not include the degree symbol in your answer.) The two negative angles are (Use a comma to separate answers as needed. Do not include the degree symbol in your answer.)
3) A mass spring oscillator is created. It has a period of 6 seconds and an amplitude of 2 cm. When a 0.70 kg-object is attached to the spring hung vertically, it stretches 0.15 m from the equilibrium position. (The following questions can be answered in either order depending on method ) A. What is the maximum speed of the oscillator? B. What is mass hanging on the spring?