Find the effective spring constant using Gauss's Law for gravity. Calculate the period of oscillation for...
Find the effective spring constant using Gauss's Law for gravity.
Calculate the period of oscillation for a rock dropped through the Earth. Write the period in minutes.
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Find the effective spring constant using Gauss's Law for
gravity.
Calculate the period of oscillation for...
(a) Find the period of oscillation for a spring-mass system where the spring constant (k) is...
(a) Find the period of oscillation for a spring-mass system where the spring constant (k) is 24 N/m and the mass (m) is 6 kg. (b) Write an equation for x(t) if the spring is stretched to an amplitude of 10 cm from its equilibrium position x = 0 at t = 0. (c) Write an equation for the following initial conditions: at t = 0, the mass is at x = 0 and has a velocity of +3 cm/s.
9. Using Gauss's Law for Gravitation (from any reference you can find) show that: a) if...
9. Using Gauss's Law for Gravitation (from any reference you can find) show that: a) if you drilled a small cylindrical hole through center of the spherical earth the acceleration due to gravity inside the hole would vary linearly with distance away from the center (thereby making an object falling freely inside the hole undergo simple harmonic motion),and b) of you had a planet that was a hollow spherical shell, the acceleration of gravity inside the shell would be zero...
Using the Gauss's Law, find the expression of the electric field at a distance r from...
Using the Gauss's Law, find the expression of the electric field at a distance r from a line of positive charge of infinite length and constant linear charge density λ. 8.
3. (6 pts) Newton's law of gravity and Coulomb's law are both inverse-square laws. Consequently, there...
3. (6 pts) Newton's law of gravity and Coulomb's law are both inverse-square laws. Consequently, there should be a "Gauss's law for gravity." The electric field was defined as E" =F" onq/q, and we used this to find the electric field of a point charge. a) Using analogous reasoning, what is the gravitational field g" of a point mass? Write your answer using the unit vector r', but be careful with signs; the gravitational force between two "like masses" is...
13) Find a period of oscillation of this physical pendulum. M1 = 0.5 kg , L1...
13) Find a period of oscillation of this physical pendulum. M1 = 0.5 kg , L1 = 1.00 m M2 = 1.0 kg, R2 = 20 cm, a solid disk 14). Describe the oscillation ( complete an expression x(t) for that oscillation). An object being displaced on the frictionless table to the left from equilibrium position at distance 0.3 m while it moving to the left with a speed 0.6 m/s. Coefficient of spring 100 N/m, and mass of the...
Using Gauss's law and assuming the pipe is sufficiently long to consider it infinitely long, calculate...
Using Gauss's law and assuming the pipe is sufficiently long to
consider it infinitely long, calculate the electric field r = 6.51
cm from the centerline of the pipe.
***Will rate for correct answers!***
Question 4 1 pts Using a stopwatch, you measure the period of 1 oscillation of a...
Question 4 1 pts Using a stopwatch, you measure the period of 1 oscillation of a mass on a spring to be 0.8 seconds. The spring has a spring constant of 25 N/m, so what has to be the mass on the end of the spring? Answer in units of grams and round to 3 significant figures.
Problem 1: Oscillation Problem Part 1: A spring that you find in the lab is characterized...
Problem 1: Oscillation Problem Part 1: A spring that you find in the lab is characterized by the graph below. A. What is the unstretched length for the spring? B. What is the spring constant for this springi C. Write the equation that describes the spring force Fup in terms of the spring length L sp Part 2: The spring is then attached to an object with a mass of 101 grams (friction can be ignored). The object is pulled...
A spring having a spring constant k is placed on a smooth horizontal table and the...
A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. (A) Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the oscillation. (B) Calculate...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the...
9. Using Gauss's Law for Gravitation (from any reference you can find) show that: a) if you drilled a small cylindrical hole through center of the spherical earth the acceleration due to gravity inside the hole would vary linearly with distance away from the center (thereby making an object falling freely inside the hole undergo simple harmonic motion),and b) of you had a planet that was a hollow spherical shell, the acceleration of gravity inside the shell would be zero...
Using the Gauss's Law, find the expression of the electric field at a distance r from a line of positive charge of infinite length and constant linear charge density λ. 8.
3. (6 pts) Newton's law of gravity and Coulomb's law are both inverse-square laws. Consequently, there should be a "Gauss's law for gravity." The electric field was defined as E" =F" onq/q, and we used this to find the electric field of a point charge. a) Using analogous reasoning, what is the gravitational field g" of a point mass? Write your answer using the unit vector r', but be careful with signs; the gravitational force between two "like masses" is...
13) Find a period of oscillation of this physical pendulum. M1 = 0.5 kg , L1 = 1.00 m M2 = 1.0 kg, R2 = 20 cm, a solid disk 14). Describe the oscillation ( complete an expression x(t) for that oscillation). An object being displaced on the frictionless table to the left from equilibrium position at distance 0.3 m while it moving to the left with a speed 0.6 m/s. Coefficient of spring 100 N/m, and mass of the...
Using Gauss's law and assuming the pipe is sufficiently long to
consider it infinitely long, calculate the electric field r = 6.51
cm from the centerline of the pipe.
***Will rate for correct answers!***
Question 4 1 pts Using a stopwatch, you measure the period of 1 oscillation of a mass on a spring to be 0.8 seconds. The spring has a spring constant of 25 N/m, so what has to be the mass on the end of the spring? Answer in units of grams and round to 3 significant figures.
Problem 1: Oscillation Problem Part 1: A spring that you find in the lab is characterized by the graph below. A. What is the unstretched length for the spring? B. What is the spring constant for this springi C. Write the equation that describes the spring force Fup in terms of the spring length L sp Part 2: The spring is then attached to an object with a mass of 101 grams (friction can be ignored). The object is pulled...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the...
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