
if
the tension string 1 is 45 N and the tension string 2
is 34 N, what is the mass of the object
1. In the figure, if the tension in string 1 is 45 N and the tension in string 2 is 34 N, what is the mass of the object shown? 1\40% 2
If M = 5.0 kg, what is the tension in strings 1 and
2?
Please explain and include all work.
Thank you!
I will thumbs up.
2. IfM= 5.0 kg, what is the tension in strings 1 and 2? 心 30 T or
3. (bonus) In the figure, if the tension in string 1 is 170 N and the tension in string 2 is 120 N, what is the mass of the object shown? 40 M a. 7.38 kg b. 11.8 kg c. 18.5 kg d. 3.70 kg e. 4.54 kg
If the speed of a wave on a violin string is 400 m/s, what will be the speed of the wave if the tension in the string is halved?
Please answer question 2.
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces. 36/4 M=...
1)A rock is suspended from a string in air. The tension in the string is 2.94N. The rock then is submerged in a liquid, and the tension in the string drops to 2.06 N. If the density of the rock is 2.55 g/cm^3 what is the density of the liquid? 2)When exposed to sunlight, a hole in a sheet of copper expands in diameter by 0.153% compared to its diameter at 68 F. What is the temperature of the copper...
Violin String Points:1 You increase the tension of a violin string (fixed at both ends). What happens to the frequency of the fundamental oscillation? O stays the same O becomes higher 0 becomes lower Submit Answer Tries 0/2 Send Feedback Post Discussion
A string with a mass density of 4.5 ✕ 10-3 kg/m is under a tension of 400 N and is fixed at both ends. One of its resonance frequencies is 195 Hz. The next higher resonance frequency is 260 Hz. (a) What is the fundamental frequency of this string? Hz (b) Which harmonics have the given frequencies? (Enter 1 for the first harmonic, 2 for the second harmonic, etc.) 195 Hz 260 Hz (c) What is the length of the...
If the tension in a 2 m string was provided by a 150g mass, and the µ for the sting was 1.0 g/m, what is the speed of a wave traveling along the string, and what is the fundamental frequency for a standing wave on this string? If you doubled the mass density of the string and tripled the hanging mass, what would happen to the fundamental frequency of the standing wave? Please answer both!
Please answer question 4. Thank you
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces....