11
Football Team Starts Two-a-Days
Wednesday, August 21, 1974
By JIMSHELDON
Associate Sports Editor
Associate Sports Editor
Physical conditioning is the number one priority for the University of Kansas where its two-a-day practice sessions this week according to head coach Don Fambridge.
"Conditioning takes first priority at the start of fall practice," said Fambridge in a recent interview. "We want to be in condition during the spring, but we are not that concerned with being in tip-top condition at that time."
The 'Hawks started practice Monday on the practice fields behind Allen Field House with sessions beginning at 8:00 a.m. and again at 3:30 p.m. The squad was scheduled to work the first three days without pads under NCAA rules.
Later in the week, according to Farmbrough, the team will be taking on a new biggie task.
if mastering a new offense (the Vee-T) and filling several holes in the offensive line-up.
"The most glaring offensive weakness is in our line depth," Farnbrough said. "We are hoping that some young kids and fresh jump in by the middle of the season."
KU's starters in the offensive line are all lettermen and Fambrough said that they
In the backfield, KU faces the task of finding replacements for graduated All-American quarterback David Jaynes and a quarterback from the fifth leading rusher in KU history.
The solution will hopefully be the switch to the Veer offense. The Veer should better utilize the running and roll-out passing ability of Jaynes' replacement, sophomore Scott McMichael, and the new tailback speedy Laverne Smith.
"Even though our quarterbacks are inexperienced, they have talent," Fam.
brough said. "If we had to play this week, I'd start McMichael. He hasn't had any game experience, but we think he has the ability."
The one backfield position that is set is
backhull where Robert Miller returns for his third year as a starter and one of this year's co-captains. Miller finished last season with a career high ranking of 104 yards in the Liberty Bowl against North Carolina State.
Bamphread said that he expected help at running back from its freshmen but that it was not yet done.
KU Depth Chart
Runners Report Today
The Jawhawk cross-country team hopes to improve on its fourth-place finish in the Big 8 meet last year.
Competition in a sport that requires running twice a day, at least 100 miles a week and performing before few spectators hardly seems attractive. Nontheless, Kansas track coach Bob Timmons expects 15 to 20 cross-country runners to report for the first day of practice today.
Cross-country is probably the least recognized autumn sport. Overshadowed by football, cross-country isn't a great spectator sport.
Cross-country runners don't perform for glory. Instead, they run for the fun of it. Cross-country also provides a good way for athletes to stay in shape and back to stay in shape during the off-season.
The sport is run over courses that vary from three to six miles in collegiate competition. The terrain of the courses varies greatly, because meets are run on golf courses, in parks, through woods and streams and sometimes even in pastures.
The number of runners in a race can vary from a dozen to more than 100. There are usually seven runners on each team, but often only the finishers for a team count in the scoring.
In scoring cross-country meets, judges assign points to each runner according to his placing in the race. The winner gets one point, the second finisher two, and so on. At the end of the race, the points are totaled and the team with the lowest score wins.
KU's cross-country hopes received a serious blow late last summer when its top student ran into a crumbling white in Colorado for a geology class. The length of time McDoon will be unable to run isn't known, but Timmons said that he and his team will back in time for the Big 8 meet Nov. 2.
McDonald is the only returning KU cross-country runner who participated in the NCAA meet last year in Spokane, Wash. McDonald turned in a time of 30 minutes, 34.4 seconds over the six-mile course, finishing 123rd out of 210 runners.
"Our main goal," he said, "is to win the conference meet. Winning the conference qualifies you for the NCAA meet, so we need to too much about the meets before that."
University Daily Kansan
"We'll be building up the mileage more now anything else," Tumorms said "and I don't have to worry."
In general, Fambridge said KU's recruiting year had been a good one.
Timmons said the runners would start out on a schedule of 100 miles a week. This means that the runners practice 4-6 miles before classes in the morning in an informal workout, then run again in a supervised practice in the afternoon.
KU's offensive strength is its receiving corps. In Emmett Edwards and Bruce Adams, the 'Hawks have the fir' and third leading receivers in KU history respectively. Tight end Kenny Saatoff also returns.
"The offence will have preference with our recruits. We will put our best athletes on offer."
Fambrough said that he could see no glaring holes in his defense but that there could be some question marks in the defensive line.
"We have proven receivers. There is not a college team in the country, but has better prospects."
Fambrough said, "We will be a better team than we were a year ago and we were much better."
Defensively KU returns eight starters from last year's team that led the nation in turnover gains (52 turnovers for KU's opener) and interceptions with 25 (also a school record).
The recent announcement that Jeff Turner, who was expected to start at defensive end, will be scholastically ineligible this season has already forced Fambrough to make some position switches (see related story).
★★
Turner Out; 'Hawks Make Line Change
Defensive tackle Fedro Dillon is recovering from knee surgery and Familii Dillon's knee injury, and contact would be a true test of his body. Dillon said that he had been on a steady weight lifting program since the removal of his knee injury but that he had done little running.
Mike Lemon, who played noseguard last year, will take over Turner's defensive end position. Terry Beeson, who ended spring drills as a starting defensive tackle, will move back to turner and guard. Beeson's back-up at tackle, Mike Butler, will move into Beeson's tackle spot.
The loss of Jeff Turner due to schuacus ineligibility has forced coach Don Dambrough to make three position changes in the defensive line.
The major change involves Lemon who, as a nosegger, was voted Big Eight newcomer of the year last year by one wire service. Lemon's size (6-foot-4, 213 lbs.) compared to Beeson's (6-foot-3, 238 lbs.) reason the FamBough gave for the switch.
A summer weightlifting accident further depleted KU's defensive line depth when sophomore defensive end Dale Zook was knocked unconscious and stopped breathing after fall from a hayloft to a cement floor with the aid of an oxygen tube in his brother, Dave, a starting defensive end found him and revived him with mouth-to-mouth resuscitation. Fambrough said Dale would definitely be out for the year. Linebackers Dean Baird and Odell
"Lemon is a good athlete, an experienced football player," he said. "He has a lot of pride. I think it won't take him very long to win. It doesn't work out, we'll move him back."
"Beees is bigger and stronger than Lemon," said Fambrough. "Lemon was handicapped by his size. That's why we moved him."
would necessarily be out for the year.
Linebackers Dean Baird and Odell
Weidner will also be recovering from knee
surgery.
New head golf coach Chuck O'Neal has announced tryouts for the fall season in Sept. 31.
Six Golfers Needed; Tryout Matches Set
O'Neal said six players would be selected after a 72-hole qualification tournament.
No one above a five handicap is eligible to trv out.
All interested students should attend a squad meeting at 7:30 p.m. Wednesday, Aug. 28 in the Trophy Room of the Allen Field House Annex.
KU has four returning starters.
DELICATESSEN & SANDWICH SHOP
Open until 12am - Phone Order:
803 745-7967 - We Deliver 9th & 11th
814 Mass St. Downtown
KANSAN WANT ADS
| | |
| :--- | :--- |
| 1.10 | Theorem 4.1.2 |
| 1.11 | Theorem 4.1.3 |
| 1.12 | Theorem 4.1.4 |
| 1.13 | Theorem 4.1.5 |
| 1.14 | Theorem 4.1.6 |
| 1.15 | Theorem 4.1.7 |
| 1.16 | Theorem 4.1.8 |
| 1.17 | Theorem 4.1.9 |
| 1.18 | Theorem 4.1.10 |
| 1.19 | Theorem 4.1.11 |
| 1.20 | Theorem 4.1.12 |
| 1.21 | Theorem 4.1.13 |
| 1.22 | Theorem 4.1.14 |
| 1.23 | Theorem 4.1.15 |
| 1.24 | Theorem 4.1.16 |
| 1.25 | Theorem 4.1.17 |
| 1.26 | Theorem 4.1.18 |
| 1.27 | Theorem 4.1.19 |
| 1.28 | Theorem 4.1.20 |
| 1.21 | Theorem 4.1.22 |
| 1.23 | Theorem 4.1.24 |
| 1.25 | Theorem 4.1.26 |
| 1.27 | Theorem 4.1.28 |
| 1.29 | Theorem 4.1.30 |
| 1.31 | Theorem 4.1.32 |
| 1.33 | Theorem 4.1.34 |
| 1.35 | Theorem 4.1.36 |
| 1.37 | Theorem 4.1.38 |
| 1.39 | Theorem 4.1.40 |
| 1.41 | Theorem 4.1.42 |
| 1.43 | Theorem 4.1.44 |
| 1.45 | Theorem 4.1.46 |
| 1.47 | Theorem 4.1.48 |
| 1.49 | Theorem 4.1.50 |
| 1.51 | Theorem 4.1.52 |
| 1.53 | Theorem 4.1.54 |
| 1.55 | Theorem 4.1.56 |
| 1.57 | Theorem 4.1.58 |
| 1.59 | Theorem 4.1.60 |
| 1.61 | Theorem 4.1.62 |
| 1.63 | Theorem 4.1.64 |
| 1.65 | Theorem 4.1.66 |
| 1.67 | Theorem 4.1.68 |
| 1.69 | Theorem 4.1.70 |
| 1.71 | Theorem 4.1.72 |
| 1.73 | Theorem 4.1.74 |
| 1.75 | Theorem 4.1.76 |
| 1.77 | Theorem 4.1.78 |
| 1.79 | Theorem 4.1.80 |
| 1.81 | Theorem 4.1.82 |
| 1.83 | Theorem 4.1.84 |
| 1.85 | Theorem 4.1.86 |
| 1.87 | Theorem 4.1.88 |
| 1.89 | Theorem 4.1.90 |
| 1.91 | Theorem 4.1.92 |
| 1.93 | Theorem 4.1.94 |
| 1.95 | Theorem 4.1.96 |
| 1.97 | Theorem 4.1.98 |
| 1.99 | Theorem 4.1.100 |
| 2.00 | Theorem 4.2.01 |
| 2.02 | Theorem 4.2.02 |
| 2.04 | Theorem 4.2.04 |
| 2.06 | Theorem 4.2.06 |
| 2.08 | Theorem 4.2.08 |
| 2.10 | Theorem 4.2.10 |
| 2.12 | Theorem 4.2.12 |
| 2.14 | Theorem 4.2.14 |
| 2.16 | Theorem 4.2.16 |
| 2.18 | Theorem 4.2.18 |
| 2.20 | Theorem 4.2.20 |
| 2.22 | Theorem 4.2.22 |
| 2.24 | Theorem 4.2.24 |
| 2.26 | Theorem 4.2.26 |
| 2.28 | Theorem 4.2.28 |
| 2.30 | Theorem 4.2.30 |
| 2.32 | Theorem 4.2.32 |
| 2.34 | Theorem 4.2.34 |
| 2.36 | Theorem 4.2.36 |
| 2.38 | Theorem 4.2.38 |
| 2.40 | Theorem 4.2.40 |
| 2.42 | Theorem 4.2.42 |
| 2.44 | Theorem 4.2.44 |
| 2.46 | Theorem 4.2.46 |
| 2.48 | Theorem 4.2.48 |
| 2.50 | Theorem 4.2.50 |
| 2.52 | Theorem 4.2.52 |
| 2.54 | Theorem 4.2.54 |
| 2.56 | Theorem 4.2.56 |
| 2.58 | Theorem 4.2.58 |
| 2.60 | Theorem 4.2.60 |
| 2.62 | Theorem 4.2.62 |
| 2.64 | Theorem 4.2.64 |
| 2.66 | Theorem 4.2.66 |
| 2.68 | Theorem 4.2.68 |
| 2.70 | Theorem 4.2.70 |
| 2.72 | Theorem 4.2.72 |
| 2.74 | Theorem 4.2.74 |
| 2.76 | Theorem 4.2.76 |
| 2.78 | Theorem 4.2.78 |
| 2.80 | Theorem 4.2.80 |
| 2.82 | Theorem 4.2.82 |
| 2.84 | Theorem 4.2.84 |
| 2.86 | Theorem 4.2.86 |
| 2.88 | Theorem 4.2.88 |
| 2.90 | Theorem 4.2.90 |
| 2.92 | Theorem 4.2.92 |
| 2.94 | Theorem 4.2.94 |
| 2.96 | Theorem 4.2.96 |
| 2.98 | Theorem 4.2.98 |
| 3.00 | Theorem 4.3.00 |
| 3.02 | Theorem 4.3.02 |
| 3.04 | Theorem 4.3.04 |
| 3.06 | Theorem 4.3.06 |
| 3.08 | Theorem 4.3.08 |
| 3.10 | Theorem 4.3.10 |
| 3.12 | Theorem 4.3.12 |
| 3.14 | Theorem 4.3.14 |
| 3.16 | Theorem 4.3.16 |
| 3.18 | Theorem 4.3.18 |
| 3.20 | Theorem 4.3.20 |
| 3.22 | Theorem 4.3.22 |
| 3.24 | Theorem 4.3.24 |
| 3.26 | Theorem 4.3.26 |
| 3.28 | Theorem 4.3.28 |
| 3.30 | Theorem 4.3.30 |
| 3.32 | Theorem 4.3.32 |
| 3.34 | Theorem 4.3.34 |
| 3.36 | Theorem 4.3.36 |
| 3.38 | Theorem 4.3.38 |
| 3.40 | Theorem 4.3.40 |
| 3.42 | Theorem 4.3.42 |
| 3.44 | Theorem 4.3.44 |
| 3.46 | Theorem 4.3.46 |
| 3.48 | Theorem 4.3.48 |
| 3.50 | Theorem 4.3.50 |
| 3.52 | Theorem 4.3.52 |
| 3.54 | Theorem 4.3.54 |
| 3.56 | Theorem 4.3.56 |
| 3.58 | Theorem 4.3.58 |
| 3.60 | Theorem 4.3.60 |
| 3.62 | Theorem 4.3.62 |
| 3.64 | Theorem 4.3.64 |
| 3.66 | Theorem 4.3.66 |
| 3.68 | Theorem 4.3.68 |
| 3.70 | Theorem 4.3.70 |
| 3.72 | Theorem 4.3.72 |
| 3.74 | Theorem 4.3.74 |
| 3.76 | Theorem 4.3.76 |
| 3.78 | Theorem 4.3.78 |
| 3.80 | Theorem 4.3.80 |
| 3.82 | Theorem 4.3.82 |
| 3.84 | Theorem 4.3.84 |
| 3.86 | Theorem 4.3.86 |
| 3.88 | Theorem 4.3.88 |
| 3.90 | Theorem 4.3.90 |
| 3.92 | Theorem 4.3.92 |
| 3.94 | Theorem 4.3.94 |
| 3.96 | Theorem 4.3.96 |
| 3.98 | Theorem 4.3.98 |
| 4.00 | Theorem 4.4.00 |
| 4.02 | Theorem 4.4.02 |
| 4.04 | Theorem 4.4.04 |
| 4.06 | Theorem 4.4.06 |
| 4.08 | Theorem 4.4.08 |
| 4.10 | Theorem 4.5.10 |
| 4.12 | Theorem 4.5.12 |
| 4.14 | Theorem 4.5.14 |
| 4.16 | Theorem 4.5.16 |
| 4.18 | Theorem 4.5.18 |
| 4.20 | Theorem 4.6.20 |
| 4.22 | Theorem 4.6.22 |
| 4.24 | Theorem 4.6.24 |
| 4.26 | Theorem 4.6.26 |
| 4.28 | Theorem 4.6.28 |
| 4.30 | Theorem 4.7.30 |
| 4.32 | Theorem 4.7.32 |
| 4.34 | Theorem 4.7.34 |
| 4.36 | Theorem 4.7.36 |
| 4.38 | Theorem 4.7.38 |
| 4.40 | Theorem 4.8.40 |
| 4.42 | Theorem 4.8.42 |
| 4.44 | Theorem 4.8.44 |
| 4.46 | Theorem 4.8.46 |
| 4.48 | Theorem 4.8.48 |
| 4.50 | Theorem 4.9.50 |
| 4.52 | Theorem 4.9.52 |
| 4.54 | Theorem 4.9.54 |
| 4.56 | Theorem 4.9.56 |
| 4.58 | Theorem 4.9.58 |
| 4.60 | Theorem 4.10.60 |
| 4.62 | Theorem 4.10.62 |
| 4.64 | Theorem 4.10.64 |
| 4.66 | Theorem 4.10.66 |
| 4.68 | Theorem 4.10.68 |
| 4.70 | Theorem 4.11.70 |
| 4.72 | Theorem 4.11.72 |
| 4.74 | Theorem 4.11.74 |
| 4.76 | Theorem 4.11.76 |
| 4.78 | Theorem 4.11.78 |
| 4.80 | Theorem 4.12.80 |
| 4.82 | Theorem 4.12.82 |
| 4.84 | Theorem 4.12.84 |
| 4.86 | Theorem 4.12.86 |
| 4.88 | Theorem 4.12.88 |
| 4.90 | Theorem 4.13.90 |
| 4.92 | Theorem 4.13.92 |
| 4.94 | Theorem 4.13.94 |
| 4.96 | Theorem 4.13.96 |
| 4.98 | Theorem 4.13.98 |
| 5.00 | Theorem 5.0.100 |
| 5.02 | Theorem 5.0.200 |
| 5.04 | Theorem 5.0.400 |
| 5.06 | Theorem 5.0.600 |
| 5.08 | Theorem 5.0.800 |
| 5.10 | Theorem 5.1.100 |
| 5.12 | Theorem 5.1.200 |
| 5.14 | Theorem 5.1.400 |
| 5.16 | Theorem 5.1.600 |
| 5.18 | Theorem 5.1.800 |
| 5.20 | Theorem 5.2.100 |
| 5.22 | Theorem 5.2.200 |
| 5.24 | Theorem 5.2.400 |
| 5.26 | Theorem 5.2.600 |
| 5.28 | Theorem 5.2.800 |
| 5.30 | Theorem 5.3.100 |
| 5.32 | Theorem 5.3.200 |
| 5.34 | Theorem 5.3.400 |
| 5.36 | Theorem 5.3.600 |
| 5.38 | Theorem 5.3.800 |
| 5.40 | Theorem 5.4.100 |
| 5.42 | Theorem 5.4.200 |
| 5.44 | Theorem 5.4.400 |
| 5.46 | Theorem 5.4.600 |
| 5.48 | Theorem 5.4.800 |
| 5.50 | Theorem 5.5.100 |
| 5.52 | Theorem 5.5.200 |
| 5.54 | Theorem 5.5.400 |
| 5.56 | Theorem 5.5.600 |
| 5.58 | Theorem 5.5.800 |
| 5.60 | Theorem 5.6.100 |
| 5.62 | Theorem 5.6.200 |
| 5.64 | Theorem 5.6.400 |
| 5.66 | Theorem 5.6.600 |
| 5.68 | Theorem 5.6.800 |
| 5.70 | Theorem 5.7.100 |
| 5.72 | Theorem 5.7.200 |
| 5.74 | Theorem 5.7.400 |
| 5.76 | Theorem 5.7.600 |
| 5.78 | Theorem 5.7.800 |
| 5.80 | Theorem 5.8.100 |
| 5.82 | Theorem 5.8.200 |
| 5.84 | Theorem 5.8.400 |
| 5.86 | Theorem 5.8.600 |
| 5.88 | Theorem 5.8.800 |
| 5.90 | Theorem 5.9.100 |
| 5.92 | Theorem 5.9.200 |
| 5.94 | Theorem 5.9.400 |
| 5.96 | Theorem 5.9.600 |
| 5.98 | Theorem 5.9.800 |
| 6.00 | Theorem 6.0.100 |
| 6.02 | Theorem 6.0.200 |
| 6.04 | Theorem 6.0.400 |
| 6.06 | Theorem 6.0.600 |
| 6.08 | Theorem 6.0.800 |
| 6.10 | Theorem 6.1.100 |
| 6.12 | Theorem 6.1.200 |
| 6.14 | Theorem 6.1.400 |
| 6.16 | Theorem 6.1.600 |
| 6.18 | Theorem 6.1.800 |
| 6.20 | Theorem 6.2.100 |
| 6.22 | Theorem 6.2.200 |
| 6.24 | Theorem 6.2.400 |
| 6.26 | Theorem 6.2.600 |
| 6.28 | Theorem 6.2.800 |
| 6.30 | Theorem 6.3.100 |
| 6.32 | Theorem 6.3.200 |
| 6.34 | Theorem 6.3.400 |
| 6.36 | Theorem 6.3.600 |
| 6.38 | Theorem 6.3.800 |
| 6.40 | Theorem 6.4.100 |
| 6.42 | Theorem 6.4.200 |
| 6.44 | Theorem 6.4.400 |
| 6.46 | Theorem 6.4.600 |
| 6.48 | Theorem 6.4.800 |
| 6.50 | Theorem 6.5.100 |
| 6.52 | Theorem 6.5.200 |
| 6.54 | Theorem 6.5.400 |
| 6.56 | Theorem 6.5.600 |
| 6.58 | Theorem 6.5.800 |
| 6.60 | Theorem 6.6.100 |
| 6.62 | Theorem 6.6.200 |
| 6.64 | Theorem 6.6.400 |
| 6.66 | Theorem 6.6.600 |
| 6.68 | Theorem 6.6.800 |
| 6.70 | Theorem 6.7.100 |
| 6.72 | Theorem 6.7.200 |
| 6.74 | Theorem 6.7.400 |
| 6.76 | Theorem 6.7.600 |
| 6.78 | Theorem 6.7.800 |
| 6.80 | Theorem 6.8.100 |
| 6.82 | Theorem 6.8.200 |
| 6.84 | Theorem 6.8.400 |
| 6.86 | Theorem 6.8.600 |
| 6.88 | Theorem 6.8.800 |
| 6.90 | Theorem 6.9.100 |
| 6.92 | Theorem 6.9.200 |
| 6.94 | Theorem 6.9.400 |
| 6.96 | Theorem 6.9.600 |
| 7.00 | Theorem 7.0.100 |
| 7.02 | Theorem 7.0.200 |
| 7.04 | Theorem 7.0.400 |
| 7.06 | Theorem 7.0.600 |
| 7.08 | Theorem 7.0.800 |
| 7.10 | Theorem 7.1.100 |
| 7.12 | Theorem 7.1.200 |
| 7.14 | Theorem 7.1.400 |
| 7.16 | Theorem 7.1.600 |
| 7.18 | Theorem 7.1.800 |
| 7.20 | Theorem 7.2.100 |
| 7.22 | Theorem 7.2.200 |
| 7.24 | Theorem 7.2.400 |
| 7.26 | Theorem 7.2.600 |
| 7.28 | Theorem 7.2.800 |
| 7.30 | Theorem 7.3.100 |
| 7.32 | Theorem 7.3.200 |
| 7.34 | Theorem 7.3.400 |
| 7.36 | Theorem 7.3.600 |
| 7.38 | Theorem 7.3.800 |
| 7.40 | Theorem 7.4.100 |
| 7.42 | Theorem 7.4.200 |
| 7.44 | Theorem 7.4.400 |
| 7.46 | Theorem 7.4.600 |
| 7.48 | Theorem 7.4.800 |
| 7.50 | Theorem 7.5.100 |
| 7.52 | Theorem 7.5.200 |
| 7.54 | Theorem 7.5.400 |
| 7.56 | Theorem 7.5.600 |
| 7.58 | Theorem 7.5.800 |
| 7.60 | Theorem 7.6.100 |
| 7.62 | Theorem 7.6.200 |
| 7.64 | Theorem 7.6.400 |
| 7.66 | Theorem 7.6.600 |
| 7.68 | Theorem 7.6.800 |
| 7.70 | Theorem 7.7.100 |
| 7.72 | Theorem 7.7.200 |
| 7.74 | Theorem 7.7.400 |
| 7.76 | Theorem 7.7.600 |
| 7.78 | Theorem 7.7.800 |
| 7.80 | Theorem 7.8.100 |
| 7.82 | Theorem 7.8.200 |
| 7.84 | Theorem 7.8.400 |
| 7.86 | Theorem 7.8.600 |
| 7.88 | Theorem 7.8.800 |
| 7.90 | Theorem 7.9.100 |
| 7.92 | Theorem 7.9.200 |
| 7.94 | Theorem 7.9.400 |
| 7.96 | Theorem 7.9.600 |
| 8.00 | Theorem 8.0.100 |
| 8.02 | Theorem 8.0.200 |
| 8.04 | Theorem 8.0.400 |
| 8.06 | Theorem 8.0.600 |
| 8.08 | Theorem 8.0.800 |
| 8.10 | Theorem 8.1.100 |
| 8.12 | Theorem 8.1.200 |
| 8.14 | Theorem 8.1.400 |
| 8.16 | Theorem 8.1.600 |
| 8.18 | Theorem 8.1.800 |
| 8.20 | Theorem 8.2.100 |
| 8.22 | Theorem 8.2.200 |
| 8.24 | Theorem 8.2.400 |
| 8.26 | Theorem 8.2.600 |
| 8.28 | Theorem 8.2.800 |
| 8.30 | Theorem 8.3.100 |
| 8.32 | Theorem 8.3.200 |
| 8.34 | Theorem 8.3.400 |
| 8.36 | Theorem 8.3.600 |
| 8.38 | Theorem 8.3.800 |
| 8.40 | Theorem 8.4.100 |
| 8.42 | Theorem 8.4.200 |
| 8.44 | Theorem 8.4.400 |
| 8.46 | Theorem 8.4.600 |
| 8.48 | Theorem 8.4.800 |
| 8.50 | Theorem 8.5.100 |
| 8.52 | Theorem 8.5.200 |
| 8.54 | Theorem 8.5.400 |
| 8.56 | Theorem 8.5.600 |
| 8.58 | Theorem 8.5.800 |
| 8.60 | Theorem 8.6.100 |
| 8.62 | Theorem 8.6.200 |
| 8.64 | Theorem 8.6.400 |
| 8.66 | Theorem 8.6.600 |
| 8.68 | Theorem 8.6.800 |
| 8.70 | Theorem 8.7.100 |
| 8.72 | Theorem 8.7.200 |
| 8.74 | Theorem 8.7.400 |
| 8.76 | Theorem 8.7.600 |
| 8.78 | Theorem 8.7.800 |
| 8.80 | Theorem 8.8.100 |
| 8.82 | Theorem 8.8.200 |
| 8.84 | Theorem 8.8.400 |
| 8.86 | Theorem 8.8.600 |
| 8.88 | Theorem 8.8.800 |
| 8.90 | Theorem 8.9.100 |
| 8.92 | Theorem 8.9.200 |
| 8.94 | Theorem 8.9.400 |
| 8.96 | Theorem 8.9.600 |
| 9.00 | Theorem 9.0.100 |
| 9.02 | Theorem 9.0.200 |
| 9.04 | Theorem 9.0.400 |
| 9.06 | Theorem 9.0.600 |
| 9.08 | Theorem 9.0.800 |
| 9.10 | Theorem 9.1.100 |
| 9.12 | Theorem 9.1.200 |
| 9.14 | Theorem 9.1.400 |
| 9.16 | Theorem 9.1.600 |
| 9.18 | Theorem 9.1.800 |
| 9.20 | Theorem 9.2.100 |
| 9.22 | Theorem 9.2.200 |
| 9.24 | Theorem 9.2.400 |
| 9.26 | Theorem 9.2.600 |
| 9.28 | Theorem 9.2.800 |
| 9.30 | Theorem 9.3.100 |
| 9.32 | Theorem 9.3.200 |
| 9.34 | Theorem 9.3.400 |
| 9.36 | Theorem 9.3.600 |
| 9.38 | Theorem 9.3.800 |
| 9.40 | Theorem 9.4.100 |
| 9.42 | Theorem 9.4.200 |
| 9.44 | Theorem 9.4.400 |
| 9.46 | Theorem 9.4.600 |
| 9.48 | Theorem 9.4.800 |
| 9.50 | Theorem 9.5.100 |
| 9.52 | Theorem 9.5.200 |
| 9.54 | Theorem 9.5.400 |
| 9.56 | Theorem 9.5.600 |
| 9.58 | Theorem 9.5.800 |
| 9.60 | Theorem 9.6.100 |
| 9.62 | Theorem 9.6.200 |
| 9.64 | Theorem 9.6.400 |
| 9.66 | Theorem 9.6.600 |
| 9.68 | Theorem 9.6.800 |
| 9.70 | Theorem 9.7.100 |
| 9.72 | Theorem 9.7.200 |
| 9.74 | Theorem 9.7.400 |
| 9.76 | Theorem 9.7.600 |
| 9.78 | Theorem 9.7.800 |
| 9.80 | Theorem 9.8.100 |
| 9.82 | Theorem 9.8.200 |
| 9.84 | Theorem 9.8.400 |
| 9.86 | Theorem 9.8.600 |
| 9.88 | Theorem 9.8.800 |
| 9.90 | Theorem 9.9.100 |
| 9.92 | Theorem 9.9.200 |
| 9.94 | Theorem 9.9.400 |
| 9.96 | Theorem 9.9.600 |
| 10.00 | Theorem 10.0.100 |
| 10.02 | Theorem 10.0.200 |
| 10.04 | Theorem 10.0.400 |
| 10.06 | Theorem 10.0.600 |
| 10.08 | Theorem 10.0.800 |
| 10.10 | Theorem 10.1.100 |
| 10.12 | Theorem 10.1.200 |
| 10.14 | Theorem 10.1.400 |
| 10.16 | Theorem 10.1.600 |
| 10.18 | Theorem 10.1.800 |
| 10.20 | Theorem 10.2.100 |
| 10.22 | Theorem 10.2.200 |
| 10.24 | Theorem 10.2.400 |
| 10.26 | Theorem 10.2.600 |
| 10.28 | Theorem 10.2.800 |
| 10.30 | Theorem 10.3.100 |
| 10.32 | Theorem 10.3.200 |
| 10.34 | Theorem 10.3.400 |
| 10.36 | Theorem 10.3.600 |
| 10.38 | Theorem 10.3.800 |
| 10.40 | Theorem 10.4.100 |
| 10.42 | Theorem 10.4.200 |
| 10.44 | Theorem 10.4.400 |
| 10.46 | Theorem 10.4.600 |
| 10.48 | Theorem 10.4.800 |
| 10.50 | Theorem 10.5.100 |
| 10.52 | Theorem 10.5.200 |
| 10.54 | Theorem 10.5.400 |
| 10.56 | Theorem 10.5.600 |
| 10.58 | Theorem 10.5.800 |
| 10.60 | Theorem 10.6.100 |
| 10.62 | Theorem 10.6.200 |
| 10.64 | Theorem 10.6.400 |
| 10.66 | Theorem 10.6.600 |
| 10.68 | Theorem 10.6.800 |
| 10.70 | Theorem 10.7.100 |
| 10.72 | Theorem 10.7.200 |
| 10.74 | Theorem 10.7.400 |
| 10.76 | Theorem 10.7.600 |
| 10.78 | Theorem 10.7.800 |
| 10.80 | Theorem 10.8.100 |
| 10.82 | Theorem 10.8.200 |
| 10.84 | Theorem 10.8.400 |
| 10.86 | Theorem 10.8.600 |
| 10.88 | Theorem 10.8.800 |
| 10.90 | Theorem 10.9.100 |
| 10.92 | Theorem 10.9.200 |
| 10.94 | Theorem 10.9.400 |
| 10.96 | Theorem 10.9.600 |
| 11.00 | Theorem 11.0.100 |
| 11.02 | Theorem 11.0.200 |
| 11.04 | Theorem 11.0.400 |
| 11.06 | Theorem 11.0.600 |
| 11.08 | Theorem 11.0.800 |
| 11.10 | Theorem 11.1.100 |
| 11.12 | Theorem 11.1.200 |
| 11.14 | Theorem 11.1.400 |
| 11.16 | Theorem 11.1.600 |
| 11.18 | Theorem 11.1.800 |
| 11.20 | Theorem 11.2.100 |
| 11.22 | Theorem 11.2.200 |
| 11.24 | Theorem 11.2.400 |
| 11.26 | Theorem 11.2.600 |
| 11.28 | Theorem 11.2.800 |
| 11.30 | Theorem 11.3.100 |
| 11.32 | Theorem 11.3.200 |
| 11.34 | Theorem 11.3.400 |
| 11.36 | Theorem 11.3.600 |
| 11.38 | Theorem 11.3.800 |
| 11.40 | Theorem 11.4.100 |
| 11.42 | Theorem 11.4.200 |
| 11.44 | Theorem 11.4.400 |
| 11.46 | Theorem 11.4.600 |
| 11.48 | Theorem 11.4.800 |
| 11.50 | Theorem 11.5.100 |
| 11.52 | Theorem 11.5.200 |
| 11.54 | Theorem 11.5.400 |
| 11.56 | Theorem 11.5.600 |
| 11.58 | Theorem 11.5.800 |
| 11.60 | Theorem 11.6.100 |
| 11.62 | Theorem 11.6.200 |
| 11.64 | Theorem 11.6.400 |
| 11.66 | Theorem 11.6.600 |
| 11.68 | Theorem 11.6.800 |
| 11.70 | Theorem 11.7.100 |
| 11.72 | Theorem 11.7.200 |
| 11.74 | Theorem 11.7.400 |
| 11.76 | Theorem 11.7.600 |
| 11.80 | Theorem 11.8.100 |
| 11.82 | Theorem 11.8.200 |
| 11.84 | Theorem 11.8.400 |
| 11.86 | Theorem 11.8.600 |
| 11.88 | Theorem 11.8.800 |
| 12.00 | Theorem 12.0.100 |
| 12.02 | Theorem 12.0.200 |
| 12.04 | Theorem 12.0.400 |
| 12.06 | Theorem 12.0.600 |
| 12.08 | Theorem 12.0.800 |
| 12.10 | Theorem 12.1.100 |
| 12.12 | Theorem 12.1.200 |
| 12.14 | Theorem 12.1.400 |
| 12.16 | Theorem 12.1.600 |
| 12.18 | Theorem 12.1.800 |
| 12.20 | Theorem 12.2.100 |
| 12.22 | Theorem 12.2.200 |
| 12.24 | Theorem 12.2.400 |
| 12.26 | Theorem 12.2.600 |
| 12.28 | Theorem 12.2.800 |
| 13.00 | Theorem 13.0.100 |
| 13.02 | Theorem 13.0.200 |
| 13.04 | Theorem 13.0.400 |
| 13.06 | Theorem 13.0.600 |
| 13.10 | Theorem 13.1.100 |
| 13.12 | Theorem 13.1.200 |
| 13.14 | Theorem 13.1.400 |
| 13.16 | Theorem 13.1.600 |
| 13.18 | Theorem 13.1.800 |
| 13.20 | Theorem 13.2.100 |
| 13.22 | Theorem 13.2.200 |
| 13.24 | Theorem 13.2.400 |
| 13.26 | Theorem 13.2.600 |
| 13.30 | Theorem 13.3.100 |
| 13.32 | Theorem 13.3.200 |
| 13.34 | Theorem 13.3.400 |
| 13.36 | Theorem 13.3.600 |
| 13.38 | Theorem 13.3.800 |
| 14.00 | Theorem 14.0.100 |
| 14.02 | Theorem 14.0.200 |
| 14.04 | Theorem 14.0.400 |
| 14.06 | Theorem 14.0.600 |
| 14.10 | Theorem 14.1.100 |
| 14.12 | Theorem 14.1.200 |
| 14.14 | Theorem 14.1.400 |
| 14.16 | Theorem 14.1.600 |
| 14.18 | Theorem 14.1.800 |
| 15.00 | Theorem 15.0.100 |
| 15.02 | Theorem 15.0.200 |
| 15.04 | Theorem 15.0.400 |
| 15.06 | Theorem 15.0.600 |
| 15.10 | Theorem 15.1.100 |
| 15.12 | Theorem 15.1.200 |
| 15.14 | Theorem 15.1.400 |
| 15.16 | Theorem 15.1.600 |
| 15.20 | Theorem 15.2.100 |
| 15.22 | Theorem 15.2.200 |
| 15.24 | Theorem 15.2.400 |
| 15.26 | Theorem 15.2.600 |
| 16.00 | Theorem 16.0.100 |
| 16.02 | Theorem 16.0.200 |
| 16.04 | Theorem 16.0.400 |
| 16.06 | Theorem 16.0.600 |
| 17.00 | Theorem 17.0.100 |
| 17.02 | Theorem 17.0.200 |
| 17.04 | Theorem 17.0.400 |
| 17.06 | Theorem 17.0.600 |
| 18.00 | Theorem 18.0.100 |
| 18.02 | Theorem 18.0.200 |
| 18.04 | Theorem 18.0.400 |
| 18.06 | Theorem 18.0.600 |
| 19.00 | Theorem 19.0.100 |
| 19.02 | Theorem 19.0.200 |
| 19.04 | Theorem 19.0.400 |
| 19.10 | Theorem 19.1.100 |
| 19.12 | Theorem 19.1.200 |
| 19.14 | Theorem 19.1.400 |
| 19.16 | Theorem 19.1.600 |
| 20.00 | Theorem 20.0.100 |
| 20.02 | Theorem 20.0.200 |
| 20.04 | Theorem 20.0.400 |
| 20.06 | Theorem 20.0.600 |
| 21.00 | Theorem 21.0.100 |
| 21.02 | Theorem 21.0.200 |
| 21.04 | Theorem 21.0.400 |
| 21.06 | Theorem 21.0.600 |
| 22.00 | Theorem 22.0.100 |
| 22.02 | Theorem 22.0.200 |
| 22.04 | Theorem 22.0.400 |
| 22.06 | Theorem 22.0.600 |
| 23.00 | Theorem 23.0.100 |
| 23.02 | Theorem 23.0.200 |
| 23.04 | Theorem 23.0.400 |
| 23.06 | Theorem 23.0.600 |
| 24.00 | Theorem 24.0.100 |
| 24.02 | Theorem 24.0.200 |
| 24.04 | Theorem 24.0.400 |
| 24.06 | Theorem 24.0.600 |
| 25.00 | Theorem 25.0.100 |
| 25.02 | Theorem 25.0.200 |
| 25.04 | Theorem 25.0.400 |
| 25.06 | Theorem 25.0.600 |
| 26.00 | Theorem 26.0.100 |
| 26.02 | Theorem 26.0.200 |
| 26.04 | Theorem 26.0.400 |
| 26.06 | Theorem 26.0.600 |
| 27.00 | Theorem 27.0.100 |
| 27.02 | Theorem 27.0.200 |
| 27.04 | Theorem 27.0.400 |
| 27.06 | Theorem 27.0.600 |
| 28.00 | Theorem 28.0.100 |
| 28.02 | Theorem 28.0.200 |
| 28.04 | Theorem 28.0.400 |
| 28.06 | Theorem 28.0.600 |
| 29.00 | Theorem 29.0.100 |
| 29.02 | Theorem 29.0.200 |
| 29.04 | Theorem 29.0.400 |
| 29.10 | Theorem 29.1.100 |
| 29.12 | Theorem 29.1.200 |
| 29.14 | Theorem 29.1.400 |
| 29.16 | Theorem 29.1.600 |
| 29.20 | Theorem 29.2.100 |
| 29.22 | Theorem 29.2.200 |
| 29.24 | Theorem 29.2.400 |
| 29.26 | Theorem 29.2.600 |
| 30.00 | Theorem 30.0.100 |
| 30
FOR SALE
Accommodations, good services and employ-
ment opportunities are provided by the
Affordable Care Act (ACA), which provides a
program of original health care for FEARLE BING
and its employees.
Datum Pickup - 1972b), a+ speed, radio, 2 speaker.
Reserve a quiet environment. Required excellent condition. Lit up 8:14-5:30 p.m. 8:30-9:15 WHY RENT? Your rent payments could just as well be paid on the road. A. Washer-Dryer, Gold Shag Carrier, Anchor, A. Washer-Dryer, Gold Shag Carrier, Gaillot Village, 3020 Iowa, L. 10, 842-8677
Sick Carrier with good tires. L. 194, 862-8771 Firefighters, 4, 504 polyester tubeless (less than 25 miles per hour), tires and $2000. Trees used only one season, car and tires=$2000. 1971-Homeite, 2 br., fully carpeted, AC, washroom, refrigerator, oven & counter top microwave, carpeted kitchen house is in excellent condition. Carpeted kitchen house is in excellent condition. Beat the price increases, inflation and big money
He beat the price increases, inflation and big money
movements. The price has recovered. Seated,
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FWNIN BIBS - Hollywood faces. 4 sets, about 30 minutes each. 2-hour run. 18 rows. 250 stairs. Crash back. luggage rack.
huge Cassette Tape Recordings with Contemporary Jazz, Classical and Folk sounds from the back of the glass room, all woven into a unique tabletop display.
NOTICE
PRE-MED STUDENTS *planning to study medicine in a French speaking country should attend the PRE-MED program for American Universities, 37 place de tUVM.** PRE-LAW STUDENTS *should consider a PRE-LAW STUDENT in England to represent government and Politics at the English Studies Centre* Kentucky, Centerbury, Kent CT 210 4D England
JAVHAKH AUDUBON is alive and well and the family has a wonderful experience during mobile or call Rob Fathah. 842-756-8031.
www.javhakh.com
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TO THE SUMMER BUSINESS STAFF. Thanks
to work and effort. This tone of the Ranian
wood is very heartfelt.
HELP WANTED
Assistant teacher needed. Dine to work with young children required, 15 hours per week. No application needed but must be hired by Tigris to 715 Arizona. Wanted - Heavy construction laborers to work in the northwest of Lawrence, Kan. Must hav
Cashier - Hostess, Fine Lawncare, must be a Master's degree or equivalent. Call 853-1431 after 8:30 p.m.
Emergency Call 853-1431 after 8:30 p.m.
Immediate openings for part time employment.
Experienced packers and loaders of household
materials.
WANTED
Female roommate wanted - Third to share 2 bedroom in house in Los Angeles. Apt. 1401.
close to campus. 8-21
University of Pittsburgh. Wabashan University
physician prof just moved to Lawrence, Kentucky
who are similarly reinforced. 842-5635.
For furnished 12' baths, $100 & offer. Ask for
formalized 12' baths, $100 & offer. Ask for
742 Massachusetts
842-5208
Open Every Saturday