Note: use principles of physics to solve the problem and then verify your answer using the...

Use principles of physics to solve the problem and then verify your answer using the simulation....

Use principles of physics to solve the problem and then verify your answer using the simulation. (a) What is the voltage of the battery in this simulation? V (b) When the simulation is first loaded the time constant is 8.0 seconds. What happens in this time? Select all the statements below that apply. Take V0 to be the battery voltage. If the capacitor starts off completely discharged, the time constant is the time required to fully charge the capacitor once...

A tennis ball rolls off the edge of a tabletop of height 0.830 m above the...

A tennis ball rolls off the edge of a tabletop of height 0.830 m above the floor and strikes the floor at a point a horizontal distance 1.50 m from the edge of the table. You can ignore air resistance. Q1) Find the time of flight. Take the free fall acceleration to be g = 9.80 m/s2 Q2) Find the magnitude of the initial velocity. Q3) Find the magnitude of the velocity of the ball just before it strikes the...

Using MATLAB to solve the problem: The USS Missouri is a battleship with 16-inch guns. A...

Using MATLAB to solve the problem: The USS Missouri is a battleship with 16-inch guns. A projectile is fired from one of the guns at an angle of elevation ϴ = 42 degree from the sea-level with a velocity Vo = 820 m/s. Neglecting air resistance and assuming the projectile is fired across the sea, using Matlab determine: (a) How much time the projectile will be in flight (tf). (b) How far away from the battleship the projectile will hit...

Change the Gravity to 9.80 m/s2.. Keep the height of the cannon at ground level. Determine...

Change the Gravity to 9.80 m/s2.. Keep the height of the cannon at ground level. Determine what angles you must have the cannon tilted at to have the cannon ball land at the target 20.5 m away when you have an initial speed of 20 m/s using the simulation. Let the mass of the cannon ball remain at 17.60 kg and the diameter at 0.18 m. Then use the Range formula R=v02sin(2θ)g to verify the angles. (Hint: recall from Trigonometry...

Projectile in 2D: A ball is thrown with initial speed V , at an angle θ...

Projectile in 2D: A ball is thrown with initial speed V , at an angle θ above the horizontal, over flat ground. Show that the motion is restricted to a single plane. Neglecting air resistance, find (a) the time taken for the ball to reach the ground; (b) the maximum height reached by the ball; (c) the horizontal distance travelled by the ball before hitting the ground (range); (d) the kinetic and potential energies at the position of maximum height...

1. A car traveling 69 km/h is 247 m behind a truck traveling 93 km/h. How...

1. A car traveling 69 km/h is 247 m behind a truck traveling 93 km/h. How long will it take the car to reach the track? Calculate to one decimal 2.Suppose one of Napoleon cannons has a muzzle speed of 32m/s. It was aimed at 54 ◦ angle. What height can the cannon ball reach? Use g = 9.8 m/s2 Calculate to one decimal 3.A girl throws a rock horizontally, with a velocity of 13 m/s, from a bridge. It...

PROBLEM A long jumper (see figure) leaves the ground at an angle of 20.0°to the horizontal...

PROBLEM A long jumper (see figure) leaves the ground at an angle of 20.0°to the horizontal and at a speed of 11.0 m/s. (a) How long does it take for him to reach maximum height? (b) What is the maximum height? (c) How far does he jump? (Assume his motion is equivalent to that of a particle, disregarding the motion of his arms and legs.) (d) Use the proper equation to find the maximum height he reaches. STRATEGY Again, we...

You are watching an archery tournament when you start wondering how fast an arrow is shot...

You are watching an archery tournament when you start wondering how fast an arrow is shot from the bow. Remembering your physics, you ask one of the archers to shoot an arrow parallel to the ground. You find the arrow stuck in the ground 62.0 m away, making a 2.8 ∘ angle with the ground. Ignore all possible aerodynamic effects on the motion of the arrow. Use 9.80 m/s2 for the acceleration due to gravity. A- For how much time...

Homework 3 As you know very well from physics, if you hit a ball forward with...

Homework 3 As you know very well from physics, if you hit a ball forward with a certain angle and a certain speed, it makes an orbital movement. The height of the ball is determined by the equation given below. y(t)=y_0+v_y0 t-1/2 gt^2 Where y0 is the first location of the ball, vy0 is the initial vertical velocity of the ball and g is the gravitational acceleration. After the ball is thrown, the horizontal distance is determined by the following...

Consider a satellite of mass m in a circular orbit of radius r around the Earth...

Consider a satellite of mass m in a circular orbit of radius r around the Earth of mass ME and radius RE. 1. What is the gravitational force (magnitude and direction) on the satellite from Earth? 2. If we define g(r) to be the force of gravity on a mass m at a radial distance r from the center of the Earth, divided by the mass m, then evaluate the ratio g(r)/g(RE)to see how g varies with radial distance. If...