problem 17. fully explain parts e and f. I have answer need explanation as to why we multiply for part e. amplitude times angular frequency to get vmax
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problem 17. fully explain parts e and f. I have answer
need explanation as to why...
please answer as many questions as possible. I will “thumb up” the answers. Thanks! 1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2...
please answer as many questions as possible. I will “thumb up” the
answers. Thanks!
1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2 cos(t). Find the amplitude, angular frequency, phase constant, frequency, and period of the motion. (b) Where is the boat at t 1 s? (c) Find the velocity and acceleration as functions of time t. (d) Find the initial values of the position, velocity, and...
A spring stretches 0.150 m when a 0.300 kg. mass is hung vertically from it. From...
A spring stretches 0.150 m when a 0.300 kg. mass is hung vertically from it. From this information you can determine the spring constant, k. Next, the spring is set up horizontally with the 0.300 kg. mass resting on a frictionless table. The block is pushed so that the spring is compressed 0.100 m from the equilibrium point, and released from rest. Determine: The spring constant k (in N/m)? The amplitude of the horizontal oscillation (in m)? The angular frequency,...
A 190 g block attached to a spring with spring constant 2.0 N/m oscillates horizontally on a frictionless table. Its velocity is 23 cm/s when x0 = -5.9 cm . What is the amplitude of oscillation?, , Wh...
A 190 g block attached to a spring with spring constant 2.0 N/m oscillates horizontally on a frictionless table. Its velocity is 23 cm/s when x0 = -5.9 cm . What is the amplitude of oscillation?, , What is the block's maximum acceleration?, What is the block's position when the acceleration is maximum?, What is the speed of the block when x1 = 2.6 cm ?
Please answer A through F. Thank you! (33%) Problem 3: A mass m 4.6 kg is...
Please answer A through F. Thank you!
(33%) Problem 3: A mass m 4.6 kg is at the end of a horizontal spring of spring constant k = 375 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 1.5 cm from equilibrium, and released from rest -Δ 17% Part (a) Write an equation for the angular frequency ω of the oscillation Grade Sıu Deductio Potential ω= Submissi Attempts %per a detailedv 0...
0.190 m and the block moves a 3.50 m/s as it passes through A 0.325 kg...
0.190 m and the block moves a 3.50 m/s as it passes through A 0.325 kg block attached to a light spring osciates on a frictionless, horizontal table. The station amplitude is equilibrium at- HINT (in N/m). (a) Find the spring constant, N/m (D) Calculate the total energy ( ) of the block spring system, (c) Find the block's speed (in m/s) when -
just need help with the last one, i) A Spring stretches AL- 0.15 m when a...
just need help with the last one, i)
A Spring stretches AL- 0.15 m when a mass m 0.3kg is gently attached to it as in Fig.1. The spring is then set up horizontally with the same mass resting on a frictionless table. The mass is pushed so that the spring is compressed to a displacement x= 0.1m 1 from the equilibrium point, and released from rest. f b) Determine the spring constant k; (2pts) FGI e) Find the magnitude...
A mass m = 3 kg is attached to a spring with spring constant k =...
A mass m = 3 kg is attached to a spring with spring constant k = 3 N/m and oscillates with simple harmonic motion along the x-axis with an amplitude A = 0.10 m. (a) What is the angular frequency of this oscillation? (b) What is the period T and the frequency f of the oscillation? (c) If the phase constant = 0, write down expressions for the displacement, velocity and acceleration of the mass as a function...
A block of mass M is attached to a wall by a massless spring with spring constant k. The block is allowed to oscillate on a frictionless surface.
A block of mass M is attached to a wall by a massless spring with spring constant k. The block is allowed to oscillate on a frictionless surface. A second block of mass m is placed on top of the first block. The coefficient of static friction between the two blocks is his. What is the angular frequency of oscillation, and what is the maximum possible amplitude of oscillation such that the second block will not fly off?
(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring...
(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring of spring constant k=185 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 5.5 cm from equilibrium, and released from rest. A 17% Part (a) Write an equation for the angular frequency w of the oscillation. HA17% Part (b) Calculate the angular frequency w of the oscillation in rad/seconds. A 17% Part (c) Write an equation...
Physics Simple Harmonic Motion Problem A 100 g block attatched to a spring with constant 2.5...
Physics Simple Harmonic Motion Problem A 100 g block attatched to a spring with constant 2.5 N/m oscillates horizontally on a frictionless table. Its velocity is 20 cm/s when x = -5.0cm. a. What is the amplitude of oscillation? b. What is the block's maximum acceleration? c. What is the block's position when the acceleration is maximum? d. What is the speed of the block when x=3.0 cm?
please answer as many questions as possible. I will “thumb up” the
answers. Thanks!
1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2 cos(t). Find the amplitude, angular frequency, phase constant, frequency, and period of the motion. (b) Where is the boat at t 1 s? (c) Find the velocity and acceleration as functions of time t. (d) Find the initial values of the position, velocity, and...
Please answer A through F. Thank you!
(33%) Problem 3: A mass m 4.6 kg is at the end of a horizontal spring of spring constant k = 375 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 1.5 cm from equilibrium, and released from rest -Δ 17% Part (a) Write an equation for the angular frequency ω of the oscillation Grade Sıu Deductio Potential ω= Submissi Attempts %per a detailedv 0...
0.190 m and the block moves a 3.50 m/s as it passes through A 0.325 kg block attached to a light spring osciates on a frictionless, horizontal table. The station amplitude is equilibrium at- HINT (in N/m). (a) Find the spring constant, N/m (D) Calculate the total energy ( ) of the block spring system, (c) Find the block's speed (in m/s) when -
just need help with the last one, i)
A Spring stretches AL- 0.15 m when a mass m 0.3kg is gently attached to it as in Fig.1. The spring is then set up horizontally with the same mass resting on a frictionless table. The mass is pushed so that the spring is compressed to a displacement x= 0.1m 1 from the equilibrium point, and released from rest. f b) Determine the spring constant k; (2pts) FGI e) Find the magnitude...
(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring of spring constant k=185 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 5.5 cm from equilibrium, and released from rest. A 17% Part (a) Write an equation for the angular frequency w of the oscillation. HA17% Part (b) Calculate the angular frequency w of the oscillation in rad/seconds. A 17% Part (c) Write an equation...
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