As shown in the figure below, three masses are drawn to the right on a surface horizontal without friction by an applied force Module fapp 65 N. The masses m1, m2 and m3 are 12.0 kg, 24.0 kg and 31.0 kg, respectively.
a. Calculate the modulus of acceleration of all of the masses.
b. Calculate the modulus of the T1 and T2 voltages in the strings that connect the masses to each other.
As shown in the figure below, three masses are drawn to the right on a surface...
1. Three masses are arranged as shown to the right. The ropes connecting the masses are massless and the pulley is massless and frictionless. A force, F, is applied to m1 up the incline on the left. All three blocks are released from rest and the values of the masses are 25.0 kg, 15.0 kg and 10.0 kg for mi, m2 and m3 respectively. There is no friction. 71 2 m3 60° 300 (a) First assume that the magnitude of...
1. Three masses are arranged as shown to the right. The ropes connecting the masses are massless and the pulley is massless and frictionless. A force, F, is applied to m1 up the incline on the left. All three blocks are released from rest and the values of the masses are 25.0 kg, 15.0 kg and 10.0 kg for mi, m2 and m3 respectively. There is no friction. 71 2 m3 60° 300 (a) First assume that the magnitude of...
The two masses "m1" and "m2" shown in the figure connected by a
massless string and are being dropped by a constant horizontal
force F a rough horizontal surface. F = 100 N, m1=10 kg, m2=15 kg
coefficient kinetic friction between each mass and M_k= 0.2
expression: M2-->M1--> F
Questions:
1) Calculate the friction force on M2
2) Calculate the acceleration of the system of the 2 masses
3) Calculate the tension T in the string.
H Mz mi
2. The blocks below are being pulled to the right on a frictionless surface by a force T3 = 80 N. The masses of the blocks are m1 = 5.0 kg, m2 = 7.0 kg and m3 = 12 kg. a) Calculate the acceleration of the blocks. b) Calculate each of the tension forces. T T2 Tg mi m2 mg
Two masses are connected by a cord that passes over a pulley
as shown in the figure. The pulley and cord have negligible mass
and m1 (2.0 kg) moves on a horizontal surface without friction, m2
(2.0 kg) is suspended vertically. What is the ACCELERATION of
m1?
Question4 2/2 pts Two masses are connected by a cord that passes over a pulley as shown in the figure. The pulley and cord have negligible mass and mı (2.0 kg) moves on...
Three blocks on a frictionless surface are connected by massless strings, with M1 = 1.50 kg, M2 = 2.60 kg, and M3 = 3.40 kg. Due to the force F acting on M3, as shown, the system accelerates to the right. Given that T1 is 3.10 N, calculate T2
2. Atwood's Table with Two Hanging Masses You have table of width L, masses m1, m2, and m3, two frictionless pulleys, and ideal string. Placing m2 on the table, you attach a bit of string to mass m1 the left pulley, to the left side of m2. Similarly, you hang mass m3 from the right side of m2 using the pulley on the right side of the table. The coefficient of friction of the table is mu. The acceleration of...
Three blocks on a frictionless surface are connected by massless strings, with M1 = 1.20kg, M2 = 2.60kg, and M3 = 3.40kg. Due to theforce F acting on M3, the system accelerates to the right. Given that T1 is 4.70Newtons, calculate T2.
Three blocks on a frictionless surface are
connected by massless strings, with M1 = 1.70kg,
M2 = 2.10kg, and M3 = 3.20kg. Due to the
force F acting on M3, as shown, the system accelerates
to the right. Given that T1 is 3.50 Newtons, calculate
T2.
Three blocks on wheels are connected by cords of negligable
mass, as shown in the figure, and pulled to the right. The masses
of the three blocks are: m1=45 kg,
m2=7 kg, m3=18
kg. The pulling force is equal to T3=24
N. Assume the motion of the wheels is negligable (i.e. the
wheels are of negligable mass).
What is the acceleration of the system?
What is T1?
What is T2?