Physics – Chapter 10 Worksheet 1

... Two cars, A and B, are traveling with the same speed of 40.0 m/s, each having started from rest. Car A has a mass of 1.20 x 103 kg, and car B has a mass of 2.00 x 103 kg. Compared to the work required to bring car A up to speed, how much additional work is required to bring car B up to speed? ...

Speed

... More practice •1. How far can a plane travel if it flies 800km/hr for 9 hours? •2. How long does it take a ship to go 500 km if it travels at a speed of 50km/hr? ...

Rotation

... together will you rotate faster or slower? a) faster! b) slower! Q14) i) Is there an external torque acting on the system? Yes or no? ii) Explain conservation of angular momentum using the formula ‘Iw’ ...

Student notes Chap 1 & 2

... • 3) Form a _______ (educated guess) • 4) Test the hypothesis (________) • 5) Analyze ______ • 6) Draw ________ ...

Escape Velocity

... mi/hr. The Saturn V rocket—one of the largest rockets ever built which blasted our astronauts to the moon—350 feet tall—achieved a speed of 25,000 mi/h. That was an incredible feat. ...

ALL PHYSICS REVIEW SHEET NAME: 1. Change .0005 m to milli

... 34.A man pushes a 100 kg mower at a uniform speed 120n along the handle which forms a 34º to the ground. Find the retarding force by the mower, the normal force by the ground, the force the man must exert to accelerate the mower from rest to 3.4m/s in 5s assume the same retarding force ...

Speed

... flies 800km/hr for 9 hours? •2. How long does it take a ship to go 500 km if it travels at a speed of 50km/hr? ...

Section 5.1 Work

... B. What is (a) its kinetic energy at A? (b) its speed at point B? (c) the total work done on the particle as it moves from A to B? 17. A 2 000-kg car moves down a level highway under the actions of two forces: a 1 000-N forward force exerted on the drive wheels by the road and a 950-N resistive forc ...

Circular Motion - strikerphysics11

... Angular velocity is denoted with ω, omega, and the direction is at a right angle to the plane of the circular motion (use right hand ...

1 Q1. What is the height of a 2.913 kg solid gold... gold is 19.32 g/cm

... A man leaves his home driving his car for one hour at an average speed of 90 km/h before running out of gas. He then gets out of his car and walks a distance of 10 km in 3 hours before reaching a gas station. The average speed of the man during the whole trip between his home and the gas station is ...

Centripetal Force Notes

... If a mass is being accelerated toward the center of a circle, it must be acted upon by an unbalanced force that gives it this acceleration. This force, called the centripetal force, is always directed inward toward the center of the circle. The magnitude of this force is written as centripetal force ...

LVI AS Physics Self

... (iv) calculation of work done, including cases where the force is not parallel to the velocity; (v) power as rate of transfer of energy; (vi) measurement of displacement, velocity and acceleration; ...

PHYSICS 12 Centripetal Acceleration/Centripetal Force

... 4) An amusement park ride has a radius of 2.8 m. If the time of one revolution of a rider is 0.98 s, what is the speed of the rider? (18 m/s) ...

exam2_T102

... As shown in Figure 2, a block of mass m = 1.35 kg is held against a compressed spring of spring constant k = 560 N/m. The spring is compressed by x = 0.110 m. The block is released and slides a distance d = 0.650 m to point A. Find the speed of the block at point A if the coefficient of kinetic fric ...

Unit 5 Problem Set

... P4. A fire hose sends 20.0 kg of water per second onto a burning building. The water strikes the roof horizontally at 40.0 m/s and is deflected 60.0° as shown in Figure P6.17. What are the magnitude and direction of the force exerted by the water on the roof? [Hint: Treat the horizontal and vertical ...

Chapter 2 Motion

... a. Unequal forces in opposite directions creates a net force in the direction of the larger force. B. Inertia and Mass a. Inertia the tendency of an object to resist any change in its motion. b. An object will keep moving and the same speed and in the same direction unless an unbalanced force acts u ...

Amusement Park Ride Project

... rad/s, how many revolutions does his wheel make before he comes to a stop? ...

Maxwell distribution of speeds

... In this equation Pc is the probability that an atom or molecule will have a speed in the differential interval of speeds between c and c+dc. This probability is equal to the number of atoms or molecules in this speed interval, dNc, divided by the total number of molecules, N, under consideration. In ...

Introduction and Describing Motion

... 1. How many centimeters are there in a foot? (1 inch = 2.54 cm) ...

Practice 4

... 10. A driver gear has 72 teeth and makes 85.0 rpm. Find the rpm of the driven gear with 144 teeth. 11. A driver gear with 40 teeth makes 154 rpm. How many teeth must the driven gear have if it makes 220 rpm? 12. The larger of two gears in a clock has 36 teeth and tuns at a rate of 0.50 rpm. How many ...

Motion - Cloudfront.net

... 3. Time is plotted on the horizontal axis (x) 4. The slope of a line gives the speed of an object in motion ...

National 4 Physics Homework 1 Average and Instantaneous Speed

... Calculate how far the aeroplane travelled after the pilot braked. ...

Electrostatic tool wear in diamond turning of amorphous polymers

... because an increase in relative humidity causes the surface charge to decrease. In fact, above 70% RH, no surface charge can be measured anymore [3]. It was also observed that no luminescence occurred during cutting in a humid environment. If electrostatic discharging should be the dominant tool wea ...

PHY203F08 Exam 3 Name

... speed of the block immediately after the collision A) cannot be found because we don't know whether the surface is frictionless. B) is 0.21 km/s. C) is 65 m/s. D) is 9.3 m/s. E) None of these is correct. 2. Two equal masses travel in opposite directions with equal speed. If they collide in a perfect ...

Abrasive Water Jet Cutting

... piece is typically rotary or reciprocating. Thus, the shape of the work surfaces is limited to circular or flat shapes. In spite of widely used CNC systems, machining of three-dimensional surfaces is still a difficult task. Most non-traditional processes were develop just to solve this problem. • Ma ...

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Speeds and feeds

The phrase speeds and feeds or feeds and speeds refers to two separate velocities in machine tool practice, cutting speed and feed rate. They are often considered as a pair because of their combined effect on the cutting process. Each, however, can also be considered and analyzed in its own right.Cutting speed (also called surface speed or simply speed) is the speed difference (relative velocity) between the cutting tool and the surface of the workpiece it is operating on. It is expressed in units of distance along the workpiece surface per unit of time, typically surface feet per minute (sfm) or meters per minute (m/min). Feed rate (also often styled as a solid compound, feedrate, or called simply feed) is the relative velocity at which the cutter is advanced along the workpiece; its vector is perpendicular to the vector of cutting speed. Feed rate units depend on the motion of the tool and workpiece; when the workpiece rotates (e.g., in turning and boring), the units are almost always distance per spindle revolution (inches per revolution [in/rev or ipr] or millimeters per revolution [mm/rev]). When the workpiece does not rotate (e.g., in milling), the units are typically distance per time (inches per minute [in/min or ipm] or millimeters per minute [mm/min]), although distance per revolution or per cutter tooth are also sometimes used.If variables such as cutter geometry and the rigidity of the machine tool and its tooling setup could be ideally maximized (and reduced to negligible constants), then only a lack of power (that is, kilowatts or horsepower) available to the spindle would prevent the use of the maximum possible speeds and feeds for any given workpiece material and cutter material. Of course, in reality those other variables are dynamic and not negligible; but there is still a correlation between power available and feeds and speeds employed. In practice, lack of rigidity is usually the limiting constraint.The phrases ""speeds and feeds"" or ""feeds and speeds"" have sometimes been used metaphorically to refer to the execution details of a plan, which only skilled technicians (as opposed to designers or managers) would know.

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Speeds and feeds