A (B+25.0) g mass is hung on a spring. As a result the spring stretches (8.50+A) cm. If the object is then pulled an additional 3.00 cm downward and released, what is the period of the resulting oscillation? Give your answer in seconds with 3 significant figures.
A=9, B=081
A (B+25.0) g mass is hung on a spring. As a result the spring stretches (8.50+A) cm. If the object is then pulled an add...
A (B+25.0) g mass is hung on a spring. As a result the spring stretches (8.50+A) cm. If the object is then pulled an additional 3.00 cm downward and released, what is the period of the resulting oscillation? Give your answer in seconds with 3 significant figures. A= 10 B=910
A 696 g mass is hung on a spring. As a result the spring stretches 22.5 cm. If the object is then pulled an additional 3.00 cm downward and released, what is the period of the resulting oscillation? Give your answer in seconds with 3 significant figures.
A 980 g mass is hung on a spring. As a result, the spring stretches 27.5 cm. If the object is then pulled an additional 3.00 cm downward and released, what is the period of the resulting oscillation? Give your answer in seconds with 3 significant figures.
Let A be the sum of the last three digits and let B be the last three digits of your 8-digit student ID. Example: for 20245347, A = 14 and B = 347. A (B+25.0) g mass is hung on a spring. As a result the spring stretches (8.50+A) cm. If the object is then pulled an additional 3.0 cm downward and released, what is the period of the resulting oscillation? Give your answer in seconds with 3 significant figures....
8. A spring stretches 3 cm when a 5 g object is hung from it. The object is replaced with a block of mass 50 g which oscillates in simple harmonic motion. What is the period of the motion? 9. It is known that a load with a mass of 25 g will stretch a spring 5 cm. The spring is stretched an additional 30 cm, and then released. (a) What is the spring's constant? (b) What is the period...
a) A hanging spring stretches by 35.0 cm when an object of mass 450 g is hung on it at rest. In this situation, we define its position as x =0. The object is pulled down an additional 18.0 cm and released from rest to oscillate without friction. What is its position x at a moment 84.4 s later? (b) Find the distance traveled by the vibrating object in part (a). (c) What If? Another hanging spring stretches by 35.5...
A vertical spring stretches 4.4 cm when a 4-g object is hung from it. The object is replaced with a block of mass 20 g that oscillates up and down in simple harmonic motion. Calculate the period of motion. (In seconds)
A vertical spring stretches 3.4 cm when a 14-g object is hung from it. The object is replaced with a block of mass 30 g that oscillates up and down in simple harmonic motion. Calculate the period of motion.
A vertical spring stretches 3.4 cm when a 4-g object is hung from it. The object is replaced with a block of mass 30 g that oscillates up and down in simple harmonic motion. Calculate the period of motion.
A mass of 2 kg stretches a spring 40 cm. The mass is pulled downward 1m and released with an upwards velocity of 2m/s. Assuming there is no damping and that^1 the acceleration due to gravity is g = 10m/s^2, determine the position u(t) of the mass at time t, as well as the amplitude, period, frequency, and phase. Provide a rough sketch of the graph of the solution.