A 28.9 kg mass ( m ) is suspended by the cable assembly as shown in the figure. The cables have no mass of their own. The cable to the left ( T 1 ) of the mass makes an angle of 0.00 ∘ with the horizontal, and the cable to the right ( T 2 ) makes an angle ( θ 2 ) of 34.3 ∘ . If the mass is at rest, what is the tension in each of the cables, T 1 and T 2 ? The acceleration due to gravity is g = 9.81 m/s 2 .
A 28.9 kg mass ( m ) is suspended by the cable assembly as shown in...
A 27.2 kg mass (m) is suspended by the cable assembly as shown in the figure. The cables have no mass of their own. The cable to the left (T) of the mass makes an angle of 0.00° with the horizontal, and the cable to the right (T2) makes an angle (02) of 32.2°. If the mass is at rest, what is the tension in each of the cables, T, and T2? The acceleration due to gravity is g =...
27.2 kg mass is suspended by the cable assembly as shown in the figure below. The cables have no mass of their own. The cable to the left (cable 1) of the mass makes an angle, theta θ1 = 0.00° with the horizontal, and the cable to the right (cable 2) makes an angle, theta θ2 = 38.5°. If the mass is at rest what is the tension in each of the cables, T1 and T2? The acceleration due to...
A 27.2 kg mass is suspended by the cable assembly as shown in figure below. The cables have no mass of their own. The cable to the left (cable 1) of the mass makes an angle, θ1= 0.00 degrees with the horizontal, and the cable right (cable 2) makes an angle, θ2=36.4 degrees. If the mass is at rest what is the tension in each of the cables, T1 and T2? The acceleration due to gravity is g = 9.81...
A 30.6 kg mass is suspended by the cable assembly as shown in the figure below. The cables have no mass of their own. The cable to the left (cable 1) of the mass makes an angle, 01=0.00* (degrees) with the horizontal, and the cable to the right (cable 2) makes an angle, 02=38.5*. If the mass is at rest, what is the tension in each of the cables T1 and T2? The acceleration due to gravity is 9.81 m/s2....
A block of mass M = 15 kg is suspended at rest by two strings attached to walls, as shown in the figure. The left string is horizontal and the right string makes an angle θ = 50° with the horizontal. What is the tension in the left string? (Assume the ring where the strings come together is massless.) Tleft =
A loudspeaker of mass 22.0 kg is suspended a distance of h = 1.60 m below the ceiling by two cables that make equal angles with the ceiling. Each cable has a length of l = 3.10 m . What is the tension T in each of the cables? Use 9.80 m/s2 for the magnitude of the acceleration due to gravity.
A loudspeaker of mass 22.0 kg is suspended a distance of h = 2.40 m below the ceiling by two cables that make equal angles with the ceiling. Each cable has a length of l = 3.30 m What is the tension T in each of the cables? Use 9.80 m/s2 for the magnitude of the acceleration due to gravity.
A loudspeaker of mass 23.0 kg is suspended a distance of h= 2.20 m below the ceiling by two cables that make equal angles with the ceiling. Each cable has a length of l = 3.30 m. (Figure 1) What is the tension T in each of the cables? Use 9.80 m/s2 for the magnitude of the acceleration due to gravity.
A loudspeaker of mass 16.0 kg is suspended a distance of h = 1.20 m below the ceiling by two cables that make equal angles with the ceiling. Each cable has a length of l = 3.30 m . (Figure 1) Part A What is the tension T in each of the cables? Use 9.80 m/s2 for the magnitude of the acceleration due to gravity.
A loudspeaker of mass 25.0 kg is suspended a distance of h = 1.20 m below the ceiling by two cables that make equal angles with the ceiling. Each cable has a length of l = 2.50 m. (Figure 1) Part AWhat is the tension T in each of the cables? Use 9.80 m/s^2 for the magnitude of the acceleration due to gravity.