1. An object weighs 3300 N. What is the object's mass? ____ kg 2. An object...

1-      You can find your own mass in kg with the following information: 1.0 kg weighs...

1-      You can find your own mass in kg with the following information: 1.0 kg weighs about 2.2 lb. on Earth. a) What is your mass in kg? b) What is your weight in newtons? 2-      Gunter the weightlifter can lift a 230.0-kg barbell overhead on Earth. The acceleration due to gravity on the sun is 274 m/s2. a) Would the barbells be heavier on the sun or on Earth? b) How much (in newtons) would the barbells weigh on...

Neil Armstrong weighs 170 lb on earth. Find his: (a) mass in slugs (b) mass in...

Neil Armstrong weighs 170 lb on earth. Find his: (a) mass in slugs (b) mass in kilograms (c) weight in Newtons For (d)-(f), first find the acceleration due to gravity on the moon. Show your work! When Neil Armstrong was on the moon, determine his: (e) mass in kilograms (f) weight in Newtons (g) weight in pounds Express each answer to three significant figures. Answer from e - g

Calculate the weight in Newtons (N) of an object that has a mass of 23 kg...

Calculate the weight in Newtons (N) of an object that has a mass of 23 kg on Earth (round to three significant figures)

What is the weight in newtons of an object that has a mass of (a) 8...

What is the weight in newtons of an object that has a mass of (a) 8 kg, (b) 0.04 kg, and (c) 760 Mg? 1–2. Represent each of the following combinations of units in the correct SI form: (a) kN>ms, (b) Mg>mN, and (c) MN>(kg · ms). 1–3. Represent each of the following combinations of units in the correct SI form: (a) Mg>ms, (b) N>mm, (c) mN>(kg · ms).

Question 1- A man has a mass of 65 kg on the Earth's surface. How far...

Question 1- A man has a mass of 65 kg on the Earth's surface. How far above the surface of the Earth would he have to go to "lose" 11 %of his body weight? Question 2- A 195 kg object is taken to a height of 390 kmabove the Earth's surface. What is the object's mass at this height? and What is the object's weight at this height?

A 2 kg object is attached to a spring and is oscillating on a horizontal surface....

A 2 kg object is attached to a spring and is oscillating on a horizontal surface. When the object has a speed of 10 m/s, the spring is stretched 2 m. The spring constant is 10 N/m. Neglect friction. Find the maximum speed of the object. What is the maximum stretch in the spring? What is the object's speed when the spring is stretched 1 m? What is the stretch in the spring when the object's speed is 5 m/s?

A small object of mass 1 kg is attached to a spring with spring constant 2...

A small object of mass 1 kg is attached to a spring with spring constant 2 N/m. This spring mass system is immersed in a viscous medium with damping constant 3 N· s/m. At time t = 0, the mass is lowered 1/2 m below its equilibrium position, and released. Show that the mass will creep back to its equilibrium position as t approaches infinity.

An object with a charge of -2.7 μC and a mass of 4.7×10−2 kg experiences an...

An object with a charge of -2.7 μC and a mass of 4.7×10−2 kg experiences an upward electric force, due to a uniform electric field, equal in magnitude to its weight. Find the magnitude of the electric field. If the electric charge on the object is doubled while its mass remains the same, find the direction and magnitude of its acceleration.

An object with a charge of -3.7 μC and a mass of 4.7×10−2 kg experiences an...

An object with a charge of -3.7 μC and a mass of 4.7×10−2 kg experiences an upward electric force, due to a uniform electric field, equal in magnitude to its weight . Find the magnitude of the electric field. If the electric charge on the object is doubled while its mass remains the same, find the direction and magnitude of its acceleration.

An object with a charge of -4.3 mu C and a mass of 4.6×10−2 kg experiences...

An object with a charge of -4.3 mu C and a mass of 4.6×10−2 kg experiences an upward electric force, due to a uniform electric field, equal in magnitude to its weight. A) Find the magnitude of the electric field. B) Find the direction of the electric field: upward downward to the left to the right c) If the electric charge on the object is doubled while its mass remains the same, find the direction and magnitude of its acceleration....